disadvantages of technology in education essay

Image credit: Kristina Closs

Technology might be making education worse

Listen to the essay, as read by Antero Garcia, associate professor in the Graduate School of Education.

As a professor of education and a former public school teacher, I’ve seen digital tools change lives in schools.

I’ve documented the ways mobile technology like phones can transform student engagement in my own classroom.

I’ve explored how digital tools might network powerful civic learning and dialogue for classrooms across the country – elements of education that are crucial for sustaining our democracy today.

And, like everyone, I’ve witnessed digital technologies make schooling safer in the midst of a global pandemic. Zoom and Google Classroom, for instance, allowed many students to attend classrooms virtually during a period when it was not feasible to meet in person.

So I want to tell you that I think technologies are changing education for the better and that we need to invest more in them – but I just can’t.

Given the substantial amount of scholarly time I’ve invested in documenting the life-changing possibilities of digital technologies, it gives me no pleasure to suggest that these tools might be slowly poisoning us. Despite their purported and transformational value, I’ve been wondering if our investment in educational technology might in fact be making our schools worse.

Let me explain.

When I was a classroom teacher, I loved relying on the latest tools to create impressive and immersive experiences for my students. We would utilize technology to create class films, produce social media profiles for the Janie Crawfords, the Holden Caulfields, and other literary characters we studied, and find playful ways to digitally share our understanding of the ideas we studied in our classrooms.

As a teacher, technology was a way to build on students’ interests in pop culture and the world around them. This was exciting to me.

But I’ve continued to understand that the aspects of technology I loved weren’t actually about technology at all – they were about creating authentic learning experiences with young people. At the heart of these digital explorations were my relationships with students and the trust we built together.

“Part of why I’ve grown so skeptical about this current digital revolution is because of how these tools reshape students’ bodies and their relation to the world around them.”

I do see promise in the suite of digital tools that are available in classrooms today. But my research focus on platforms – digital spaces like Amazon, Netflix, and Google that reshape how users interact in online environments – suggests that when we focus on the trees of individual tools, we ignore the larger forest of social and cognitive challenges.

Most people encounter platforms every day in their online social lives. From the few online retail stores where we buy groceries to the small handful of sites that stream our favorite shows and media content, platforms have narrowed how we use the internet today to a small collection of Silicon Valley behemoths. Our social media activities, too, are limited to one or two sites where we check on the updates, photos, and looped videos of friends and loved ones.

These platforms restrict our online and offline lives to a relatively small number of companies and spaces – we communicate with a finite set of tools and consume a set of media that is often algorithmically suggested. This centralization of internet – a trend decades in the making – makes me very uneasy.

From willfully hiding the negative effects of social media use for vulnerable populations to creating tools that reinforce racial bias, today’s platforms are causing harm and sowing disinformation for young people and adults alike. The deluge of difficult ethical and pedagogical questions around these tools are not being broached in any meaningful way in schools – even adults aren’t sure how to manage their online lives.

You might ask, “What does this have to do with education?” Platforms are also a large part of how modern schools operate. From classroom management software to attendance tracking to the online tools that allowed students to meet safely during the pandemic, platforms guide nearly every student interaction in schools today. But districts are utilizing these tools without considering the wider spectrum of changes that they have incurred alongside them.

photo of Antero Godina Garcia

Antero Garcia, associate professor of education (Image credit: Courtesy Antero Garcia)

For example, it might seem helpful for a school to use a management tool like Classroom Dojo (a digital platform that can offer parents ways to interact with and receive updates from their family’s teacher) or software that tracks student reading and development like Accelerated Reader for day-to-day needs. However, these tools limit what assessment looks like and penalize students based on flawed interpretations of learning.

Another problem with platforms is that they, by necessity, amass large swaths of data. Myriad forms of educational technology exist – from virtual reality headsets to e-readers to the small sensors on student ID cards that can track when students enter schools. And all of this student data is being funneled out of schools and into the virtual black boxes of company databases.

Part of why I’ve grown so skeptical about this current digital revolution is because of how these tools reshape students’ bodies and their relation to the world around them. Young people are not viewed as complete human beings but as boxes checked for attendance, for meeting academic progress metrics, or for confirming their location within a school building. Nearly every action that students perform in schools – whether it’s logging onto devices, accessing buildings, or sharing content through their private online lives – is noticed and recorded. Children in schools have become disembodied from their minds and their hearts. Thus, one of the greatest and implicit lessons that kids learn in schools today is that they must sacrifice their privacy in order to participate in conventional, civic society.

The pandemic has only made the situation worse. At its beginnings, some schools relied on software to track students’ eye movements, ostensibly ensuring that kids were paying attention to the tasks at hand. Similarly, many schools required students to keep their cameras on during class time for similar purposes. These might be seen as in the best interests of students and their academic growth, but such practices are part of a larger (and usually more invisible) process of normalizing surveillance in the lives of youth today.

I am not suggesting that we completely reject all of the tools at our disposal – but I am urging for more caution. Even the seemingly benign resources we might use in our classrooms today come with tradeoffs. Every Wi-Fi-connected, “smart” device utilized in schools is an investment in time, money, and expertise in technology over teachers and the teaching profession.

Our focus on fixing or saving schools via digital tools assumes that the benefits and convenience that these invisible platforms offer are worth it.

But my ongoing exploration of how platforms reduce students to quantifiable data suggests that we are removing the innovation and imagination of students and teachers in the process.

Antero Garcia is associate professor of education in the Graduate School of Education .

In Their Own Words is a collaboration between the Stanford Public Humanities Initiative  and Stanford University Communications.

If you’re a Stanford faculty member (in any discipline or school) who is interested in writing an essay for this series, please reach out to Natalie Jabbar at [email protected] .

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Education  |  Feb 25 2020

5 Disadvantages of Technology in the Classroom (And How to Overcome Them)

Though we generally see progress as a good thing, there are definite disadvantages of technology in the classroom. From distraction to reducing face time, EdTech isn’t a magic bullet for every situation. With some awareness, however, most disadvantages can be overcome, like some of the surprisingly old-school thinking that helps with tech disparity. 

So read on for some disadvantages of technology in the classroom (and potential solutions). 

From apps and e-textbooks to organizational platforms and “gamification,” there’s no shortage of technology in the classroom . But, while EdTech tools can make lessons more engaging and useful for students raised on technology, they can equally challenge teachers and lead to suboptimal outcomes for students. How can teachers get the most out of technology without sacrificing efficiency or engagement?

Here are 5 disadvantages of technology in the classroom and how to get past them for your students.

Distracting Students

Smartphones have a bad reputation in classrooms and there have been  strong cases for banning them in schools . Research suggests that during class time, when smartphones 42% of the time that students spent on their smartphones in the classroom, it was to text, tweet, or otherwise engage in social media rather than the lesson.

However, bans on devices such as smartphones are unlikely to work as students will inevitably get around them. Also, such bans would be resented by students, who consider the use of technology to be a matter of personal autonomy that should only be regulated when it distracts other students. While teachers can help students learn better self-control methods to help them to regulate their own use of devices, research shows that better lesson plans that promote student engagement have less off-task use of technology.

Therefore, the onus is on instructors to create engaging, inspiring, and stimulating lesson plans that incorporate technology. For example, smartphones can access educational apps that promote learning as well as time management.

Many teachers incorporate digital platforms into lesson plans and find that using social media can actually keep students engaged and encourage classroom participation. Some teachers even create twitter hashtags to encourage comments.

Technology can be used to supplement lesson plans with digital materials, including video , news stories, online discussions, and to encourage participation. Get creative!

Requires Management and Training

The rise of EdTech means that being effective in the classroom requires that teachers are effective on the screen and tech platform. Studies show that three-quarters of teachers say the internet and other digital tools have added new demands to their lives and have dramatically increased the range of content and skills about which they must be knowledgeable, with nearly half saying it has increased their workload.

New tech in the classroom also means needing IT professionals to help set it up, maintain it, and support teachers and students in its use. Clear and transparent communications among administration, faculty, and tech vendors that clarify how adopting a particular device, platform, or program will benefit students and teacher alike, can greatly enhance the use of technology in the classroom, to remove the suspicion that such technology is just “bells and whistles” with little actual value. Teachers also need access to training.

Moreover, institutions can help maximize their technical support staff by finding a less resource-intensive solution. Read 10 Reasons Education IT Administrators Love Interactive Touch Screen Displays .

Disadvantages of Technology in the Classroom - Tech Disparity

Leads to Tech Disparity

Tech disparity refers to how much access students have to the necessary devices. The differences in access can be seen between school districts, with more affluent districts having greater resources, but it can also refer to differences among students in the same school, where students from wealthier families having greater access. A recent survey indicates that while 84 percent of American teens have a smartphone, the other 16 percent don’t. Reaching out to that 16 percent is the goal.

Tech disparity also refers to school policymaking and tech management. For example, the above survey also points out that while three-quarters of teachers working in wealthier districts felt that their schools provided adequate training, only half of the teachers in low-income areas agreed. Around 40 percent of teachers in economically disadvantaged areas saw their schools as behind the curve in technology advancement.

Teachers and administrators can take practical steps toward bridging the tech divide. Assuming unequal access to devices, schools can focus on technology that can be shared among classes, for example, shared tablet computers and school computer labs, not to mention school-based Wi-Fi.

Then, there is tech that can be used within the classroom, such as interactive whiteboards and projectors, as well as a digital curriculum that all students can access.

Bridging the tech divide is not easy, but for a fairer society with equal opportunity, it needs to be the focus of all efforts. (But a good start to fighting tech disparity is a computer lab in school .)

disadvantages of technology in education essay

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Learning Solutions For the Future

Nothing in this world is free, and buying cutting-edge electronics for a classroom is downright expensive. While there’s no way to avoid spending money modernizing a classroom, it is at least possible to maximize the total cost of ownership (TCO) by installing devices with longer lifespans and reduced maintenance. Tech with higher upfront costs might actually save the school money as it will face fewer issues and have less downtime while being easier to use. Schools need to assess TCO carefully before choosing purchasing tech.

Moreover, the use of technology should not be confined to the classroom and in fact can be used to streamline administrative systems, cutting costs, boosting productivity, and reducing time wasted on administrative tasks. Cloud computing, for example, offers substantial opportunities for schools to save money. Switching to a digital curriculum eliminates the need to continuously replace outdated textbooks.

Cloud-based computing also reduces the need to keep expensive hardware on-site, which can save in administrative costs, reduce payroll costs (fewer IT techs), and eliminates that 24-hour air-conditioned server room. Also, sharing materials online rather than printing them out saves costs of printers and ink – substantial costs for schools – not to mention all that hard work spent printing.

Disadvantages of Technology in the Classroom - Less Face Time

Less Face Time

No amount of technology in the classroom can replace talented, inspired teachers. As the adage goes, any teacher that can be replaced with a tech device probably deserves to be replaced.

Technology is not the solution to ensuring a healthy vigorous learning culture, it is simply a pedagogical tool that is only as valuable as the instructor who wields it. In fact, while billions of dollars are spent on EdTech, countries that don’t deploy tech often have better educational outcomes than countries that spend heavily.

Face to face interactions between teacher and student can help students not just acquire facts, but to understand, interpret, and apply these facts into useful and interesting knowledge. Through face to face interactions, teachers can help students build self-esteem and confidence and emotional maturity. Particularly in disadvantaged areas, teachers can provide a zone of comfort and security, and everywhere teachers can reduce the cyberbullying that so often accompanies social media.

There are lots of ways to synthesize tech into real-world activities, but sometimes teachers just need to switch off the tech and get down to personal interactions. For example, while so much information can be readily accessed on the Internet, so much of that information is dubious at best and sometimes downright malevolent. Teachers need to guide students on how best to identify useful sources and balance differing viewpoints.

Final Thoughts

Of course there will be challenges along the way as we adopt new technologies in education and improve them to suit student outcomes. But the advantages vastly outweigh the disadvantages of technology in the classroom. It is just always important to remain aware of where the latest tech is coming up short and to adjust course for the best possible learning outcome for the students.

There’s no reason to be afraid of EdTech, but nor should we rush blindly into digital transformation. After all, education is all about learning, and we should all be open to the ongoing process of improvement that comes with it.

Want to learn more about implementing EdTech? Check this out:  Technology in the Classroom: The Complete Guide . Or go directly to ViewSonic’s technology solutions for education .

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Pros and Cons of Technology in the Classroom

Student learning is an area with enormous potential to benefit from information technology. Information dissemination is, after all, a core strength of today’s technologies. And digital technology offers versatile platforms to streamline classroom teaching.

While technology unlocks innovation opportunities, blended teaching and learning are not without disadvantages. What are the downsides that come with the powers and benefits of technology?

Debate is still going on concerning potential harm from integrating technology into the classroom. Let’s look at both sides by discussing the advantages and disadvantages of students accessing computers and digital information.

Advantages of Technology in Education

By offering digital tools and learning platforms, technology offers great advantages in school education. Students have more information at their fingertips and build technology skills. Tech can do some tasks equally or better than teachers, including administration, data gathering and supporting self-direct learning. Here are the top five pros to technology in the classroom.

1. Access high-quality, current information

Science teacher using digital whiteboard

Modern technology is fantastic when it comes to making information available to everyone. In a classroom setting, getting the most up-to-date data helps ensure the best educational experience. Teachers are also able to use or direct students towards trusted sources to ensure accurate information.

Students are also able to assimilate information more efficiently with the interactive presentation that digital technology allows. Instead of reading through text sequentially, the teacher or student can navigate information on a topic using hyperlinks, tabs, accordions, etc. References can be checked immediately as well.

Classroom technology definitely beats paper textbooks for accessing relevant information quickly. The trick is to place structure around activities to maintain focus and ensure the class is covering the same material. The need to keep everyone on the same page so to speak is a limiting factor in the use of technology for gaining information.

2. Gather student performance metrics easily

Online learning in the classroom

A clear and powerful advantage of using technology in education is that it allows teachers to perform their job better. The automatic collection of data in digital testing and learning environments has the benefits of: allowing more student performance data to be collected, freeing teachers from repetitive grading exercises, and providing instant feedback to students.

Platforms that yield data analytics can pinpoint the areas where each student is having most difficulty. Performance information allows instructors to quickly adjust teaching strategies and the syllabus according to the data gathered and analyzed.

When a given learning goal can be achieved with technology or traditional methods with about equal effectiveness, the technology-based approach may be preferred just because of the data advantages. Once in this digital environment, the technology and instructional content may be improved over time, leaving traditional instruction techniques further and further behind.

3. Students learn technology skills

Students using a laptop and tablet in elementary school

Using technology in the classroom naturally increases opportunities for students to learn technology skills. While it’s possible to take all but the simplest IT skills out of a lesson, keeping some technical challenges in there is healthy for student development. After all, we live in a digital world and have things like virtual offices and working online from home .

Children are fast learners when it comes to most things but especially with technology. Given the chance, they’ll quickly build computer operation skills and digital literacy. Examples of skills they’ll learn include keyboard awareness, logging in and password protection, navigating apps, setting preferences, online document sharing, and using standard software such as text editors and spreadsheet workbooks.

Teachers can offer exercises that give pupils the opportunity to test and expand their capabilities. For example, you can give students freedom in how they present project results. The smart ones, who could perhaps become IT professionals in the future, will find and deploy internet resources, such as graphics or charting software, to enhance the presentation.

4. Improved student participation and engagement

Smiling boy using computer in class

Students generally love technology and introducing it is a way to boost engagement. Mixing up traditional instruction styles with technology makes the class less predictable and the learning environment more dynamic.

Examples of how teachers can inject technology are to: direct students to online resources, present short videos, use interactive software, make digital presentations, and ask students to create digital content themselves.

Online platforms are often flexible in allowing you to exercise your creativity. You can, for instance, customize quizzes to make them more engaging and competitive. Any good resources you find online might be useful additions to the lesson. The possibilities are limitless.

You can also apply technology to get more information from reserved students. If you need to ask the opinion of everyone regarding a topic or even a simple question, why not use an online polling platform? This way, even quiet students who normally wouldn’t want to speak in the classroom will participate.

5. Automate repetitive tasks

Teacher grading papers

Teaching can include tedious tasks such as keeping track of attendance, recording quiz scores and noting tasks completed. With the present technology available, such tasks can now be partially or fully automated. This can unlock time teachers are able to divert to substantive teaching endeavors.

Existing technology can be used to help teachers in several areas: planning lessons, assessing students, grading homework, giving feedback and administrative paperwork. Jill Barshay

Implementing technology is not a costless exercise however and the effectiveness depends on how well software is programmed and made easy to use. But, over time, we can expect the work of teachers to become more streamlined. Instructors will have fewer administrative tasks and more time to capitalize on human strengths, such as making connections, inspiring students and creating a sense of shared purpose.

Disadvantages to Technology in the Classroom

The recency of many innovations means we’re still grappling with how best to incorporate technology in schools. Educators may lack the time and knowledge to implement tech effectively. Using technology without sufficient care can produce poorer learning outcomes and cause students to miss out on social interaction. These are key cons of technology in the classroom and online education.

1. Faster but less memorable learning

Typing and fast speed of modern tech.

While the lightning pace with which technology operates may seem like a clear benefit, experienced educators are actually wary of this aspect. Devices and learning apps are able to function faster than the corresponding learning speed of the human mind. Students may gloss over material, missing texture and depth along the way.

Proper and coherent cognitive thought takes time. Otherwise, engagement can be drastically reduced. It’s for this reason experts are suggesting we modify media use, such as how videos are presented , to slow down and allow for more rumination and contemplation.

The simple act of writing something by hand has slowing, stimulatory effects that brain research has shown to aid both learning and memorization. Although efficient, typing is repetitive as each keystroke is almost the same action. Writing by hand is more challenging, intricate and slower, allowing your brain to form more “hooks” to imprint thoughts.

2. Technology can be distracting

High school student distracted by laptop

Devices such as laptops and tablets in the classroom are bound to become sources of distraction to students. This is especially true if the software doesn’t prevent access to apps unrelated to lessons, quizzes and other educational activities.

A need exists for appropriate restrictive measures on gadgets in education to ensure they further learning goals and aren’t used, for example, to play games or use social media for pure entertainment. You can be sure that some badly behaved students will always try to use technology for fun instead of the intended purpose.

A problem here is that high school students may be more tech savvy than their teachers. One technique students use to access out-of-bounds sites is to go to a proxy site that delivers content from other sites without the student technically visiting those sites. Another method to bypass a school firewall is to use a virtual private network (VPN ) to encrypt browsing data so the student’s internet activities can’t be monitored.

3. Less direct social interaction

Class in computer lab

The apparent way in which technology excises social interaction is another cause for concern. Students have less need to verbally communicate and interact with their teachers and one another when using technology. Online teaching and learning excludes face-to-face interaction altogether.

To address this, classroom teachers should ensure activities such as oral presentations, recitations and group work happen regularly. There needs to be a mindfulness that we’re trying to prepare well-rounded people for adulthood.

For students addicted to gaming or social media, school might actually be a place where they get some downtime from tech. It’s up to teachers to identify when students are spending too much time with their heads buried in devices. When technology isn’t being used, students should be encouraged or pressed to show some life and interact.

4. Integrating tech is often time consuming

Woman teacher teaching online

While technology could make the job of a teacher very easy in the future, we are not there yet . Devising effective lessons using digital technology rather than traditional methods can be challenging and time consuming. That’s why it’s important for educators to share their insights on how to effectively teach kids when there is technology in the classroom.

Showing up to your class and teaching by talking and interacting with students doesn’t require special preparation. But when you make extensive use of technology during the lesson, you’re normally going to have to prepare for that. Teachers taking advantage of technology have the same amount of face-to-face instruction time but may need to do more planning, placing an extra strain on their workload.

Online learning when classes are held remotely have shown the limitations of tech. Just trying to corral students, to ensure they’re all logged in and paying attention, is a challenge in itself. The quality of lessons suffers as educators grapple with tech while trying to meet the practical learning needs of students.

6 Tips on How To Engage With Students

27 thoughts on “ pros and cons of technology in the classroom ”.

My child has been influenced due to the bad technology. He was a nice 9 year old kid before he found out about the thug shaker from technology. He keeps saying “Im bout to blow.” Technology has effected our society. And the thug shaker is a prime example.

OKAY BOOMER!

This comment section be crazy yall.

i think ur over exaggerating

gangsta rap

The amount of privilege in this paragraph is nothing short of nauseating. “Teachers can offer exercises that give pupils the opportunity to test and expand their capabilities. For example, you can give students freedom in how they present project results. The smart ones, who could perhaps become IT professionals in the future, will find and deploy internet resources, such as graphics or charting software, to enhance the presentation.” Oh wow, just wow… “The smart ones”, you mean the ones that sit still, eyes on you, have stable households, technology access at home, maybe even only from this country… Do better future educators, do better….

Everyone in a classroom should be expected to pay attention, no matter their background. You don’t have to be privileged to do it. And every child should be given the opportunity to reach their potential – no ceilings.

chat gpt cookin

Some of us knew how to write before Chat GPT came along.

im a 12 year old sacred heart student and im reading your comments for a debate thank you so much 12\10\2023

Technology is very bad. Technology reminds me of the turbunence, strapping down your seatbelts, thug shaker, and people getting addicted to their phones, whenever i go in public people start doing turbulence, and always yelling out stuff and it influenced our society very big.

Stop being rude.

Technology can be a distraction for students, making it difficult for them to focus on learning. For example, students may be more interested in checking social media on their devices than paying attention to the lesson. Also when students rely too heavily on technology, they may become less capable of solving problems or completing tasks without it. This can hinder their ability to develop critical thinking and problem-solving skills.

no you are wrong

i think that it is not that it is not that bad to have a phone

Maybe so. However, the use of technology and electronic devices can have negative effects on concentration and the ability to write well-structured sentences. Everyone, including educators, need to find a balance and limit the use of technology to enhance academic performance.

pluh using ai

Technology needs to be included to a certain degree but if we use it in every aspect of learning, you will see more and more children suffering with ADHD, ADD, and other learning issues. I see it now with children as young as 8 years old walking around with smartphones!

The good news is there is no evidence in this study or anything else I’ve read that cell phone use would create ADHD

There are pros and cons to everything, that’s why everything should be used in a controlled way. This is true nothing can replace the conventional method of teaching, but we can make it more interesting and better for students with a little use of tech. Like the use of animation, quiz polls, etc. So everything is cool until it is used in a particular way.

I would like to point out that you’re contradicting yourself on the Pro#4 with the interaction of a student via tech, and with the Con #3, that a student needs to interact with oral participation. The Pro #4 would discourage oral participation, which I believe is huge asset for all students. A student should be encouraged and helped with speaking out on different discussions. Teaches would call on me, even though they knew I didn’t like it, but it helped me get over my shyness. I hated speech in high school, but I did it and thank God for it. It has helped me tremendously.

That’s a good point Billiam. We shouldn’t lose the art of conversation and talking in person. Using technology to engage students is a balancing act.

I think it’s imperative that kids learn technology. Just don’t abandon everything. For example, we don’t use quills and inkpots (or fountain pens for that matter), but we should still teach kids to write with pens and pencils. That includes cursive, which is proven to help kids’ learning. There are grey areas though. One of them is calculators. We don’t teach kids how to use slide rules, but should we abandon calculators for certain situations? Then there are things that have completely been abandoned, but for no good reason. Why can’t kids tell time with non-digital clocks?

I can agree on most of your points. My question would be, when do we introduce students to technology? Call me old fashioned, but I believe that the task of learning simple math (1-3 digit computations), parts of speech, and sentence structure should be taught without the use of any type of technology. As students progress, I think technology is a great thing to interject into education. I do believe, however, this should be minimalized until about fifth grade. Students taking assessment test need to know how to write instead of just clicking on an answer. Calculators were never allowed in school until junior high when I attended. There are many students, in the school where I work, that will not write because they do not know how to form the letters on paper. Many times the students who do know how to write, have horrible handwriting because they do not write every day. Yes, technology is wonderful, but at what age should it be introduced in order for students to be able to succeed before technology is used?

This is how I see technology in the classroom: you have to use a hybrid model because there is no escaping how ingrained technology is in our lives and even more in the students’ lives. I would argue that in some cases the students are ahead of their teachers when it comes to being tech-savvy and understanding where things are headed. However, there are traditional skills that are overlooked far too much including reading from books, writing (printing and cursive), and doing research without a computer. Add these items to your article and I can’t think of any better description of the pros and cons of using technology in classrooms.

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Home / Students / Education / Technology in education / Advantages and disadvantages of technology in education

Advantages and disadvantages of technology in education

Although the education system has always been strongly influenced by innovations, the explosion of new technologies caused tectonic shifts in the way the teaching process is carried out in school. 

Advantages and disadvantages of technology in education

Many technology enthusiasts believe that changes in the education system can only go forward due to an incredible growth in the number of inventions that are continuously changing the description of existing professions. In this regard, many believe that abandoning traditional classroom education altogether is almost certain in the near future, noting that traditional education will not be able to adequately prepare students for the new challenges and demands of the real world. 

However, sceptics often argue that we should be careful with the immediate implementation of modern technologies in the classroom, primarily because of the potential consequences, such as widening of an existing social gap, an increased number of individuals who suffer from mental illness, and the regression of children’s cognitive and academic development that may prove irreversible.  

Taking into account the arguments of both sides, we will present a list of advantages and disadvantages of technology in education below, and explain how it impacts today’s students. 

Advantages of technology in education

Looking back over the last hundred years, introducing technology into the classroom has been a blessing only for younger students and teachers. In other words, with a sudden introduction of a wide range of devices and the Internet, students got the opportunity to make the learning process much easier and more interesting. Key benefits of technology in education include: 

Provides a better interactive experience during the learning and teaching process 

With the introduction of mobile phones, tablets and computers, students are now able to do something they should have been able to do long ago – to learn actively and productively. For the first time, students can access a subject/teaching unit with enthusiasm thanks to applications, videos, simulations and digital books that make the learning process much more engaging. Moreover, having the opportunity to dig deeper into an area that interests them allows them to potentially recognize their interests and talents, and maybe even their future profession.  

Provides access to an unlimited amount of current information and data from a variety of sources 

In addition to the fact that students approach learning with more enthusiasm and productivity, they also have the opportunity to access the most current topics and research, which is something their ancestors could only dream about. Instead of going from library to library, dragging a pile of books with them, they are just a few clicks and well-defined queries away from accessing information that can give them additional insight into the topics they are covering at school. So, this practice not only enables students to have a modern education, but it also teaches them how to approach the search for information and read complex professional literature. 

Teaches them digital literacy 

We all know that young people cannot acquire the level of skill demanded by today’s corporate world in computer science classes. By implementing technology as an integral part of education, students are given the opportunity to keep up with learning trends and acquire technological/digital skills that are highly sought after in the 21st century . This form of learning is most helpful for students who don’t have access to modern technology at home, which could also potentially reduce the social gap between digitally literate and illiterate people.   

Reduces educational costs  

With the introduction of technology in education, resources have become more accessible, which resulted in declining tuition fees, the need for books and their price, as well as the reduced need for school supplies. The introduction of e-books has made things easier for low-income families, and helped students to approach learning on equal terms with their peers, without parental pressure for high performance arising from large investments into their child’s education. 

In addition, another positive side-effect of using e-books in education is the fact that they indirectly contribute to the reduction of deforestation, which is one of the major environmental problems.  

Provides better insight into student performance thanks to metrics 

In the past, teachers had to spend considerable time evaluating the overall academic performance of each student, which proved to be very impractical, especially in large classes with over 20 students. Unfortunately, many students never succeed in correcting the wrong steps in learning that can help them improve their performance , and potentially discover their talents of affinities. 

However, with the introduction of digital technologies and the Internet in the classrooms, a teachers’ job of analyzing student performance and providing guidelines and advice has become much easier, which is a win-win situation both for teachers and students. Specifically, thanks to platforms that collect data on student performance in class, tests, and assignments, teachers have clear insight into the areas students struggle with, or excel at. Moreover, teachers are now able to modify lessons based on insights into the performance of individual students, or class as a whole. 

They can choose between real-time learning or learning at their own pace 

Technology in education has allowed students to gain control over their learning, but it also provided flexibility to teachers in transferring knowledge to students. Namely, this practice is only possible in schools that support hybrid (blended) learning , i.e. a combination of synchronous real-time learning, and asynchronous learning where students can listen to a lecture when they choose.

Listening to a teacher giving a lesson in real time provides students with a stronger sense of belonging, and allows them to socialize with their peers, same as face-to-face interaction with the teacher . On the other hand, more independent students who are confident in their own time management and commitment management skills can learn whenever they feel like it.

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Disadvantages of technology in education

It is great to be optimistic and believe in the continuous advancement of technology, however, it is equally important to not lose sight of the negative sides of technology in education, and how it can cause long-term problems for young people. Namely, many sceptics from the domain of social sciences and humanities often point out several potential disadvantages of technology in education, and how it can negatively affect certain aspects, and the quality of children’s life and development: 

It is distracting both in the classroom and outside of it 

Proponents of technology in education often forget that students continue to use their mobile phones and tablets throughout the day, long after they’ve completed their school activities. Namely, with the daily dosage of social media and video games, children’s brains are accustomed to entertaining, intensive, and short-term content that can quickly stimulate their dopamine system. 

The biggest problem here is the fact that daily interaction with technological devices reduces attention span, and research shows that the attention span of children from Generation Z is about 8 seconds .  Although teachers may have good intentions, the use of applications that have nothing to do with the teaching process itself should be restricted, and technology should be used in class only when absolutely necessary.  

Potentially diminishes cognitive development and reduces problem-solving skills 

Technology always has a good intention, to reduce the time and make it easier to perform certain mechanical activities. However, technology has automated almost all school activities. Why would a child need to learn the basics of math, when they can use a calculator on their phone, or why would they need to learn spelling, when they have autocorrect software? 

So, what was originally a positive intention has led to the situation that new generations will be unable to perform everyday cognitive activities without technology. In addition, it should be noted that when children use technology to solve every problems at school, they gradually lose their problem-solving abilities, which is a highly sought-after set of skills. The only solution to this problem is to have teachers and educational institutions as a whole impose restrictions on the use of technology in education. 

Reduces direct peer interaction 

Although digital technologies have been shown to improve student advancement, and project collaboration, they, however, disregard our biological need for interaction in real time. Namely, we have lived as social beings for over tens of thousands of years, and we now think that we can trick our genetic predisposition so easily. 

Although young people interact with their parents, teachers and peers, the percentage of adolescents with a diagnosis of some form of depression has been growing, and has now reached a staggering 20%. The only solution that teachers and educational institutions can offer is to encourage young people to engage in face-to-face interaction with others. 

Maintaining modern technology is very expensive 

The cost of upgrading or maintaining technology is often overlooked. In a world where new innovations in the field of digital technologies appear almost every month, and where upgrading software and applications continuously requires more powerful devices, relying on the belief that technology in education is the only solution sounds overly confident. 

Namely, teaching and learning can be done without technology, but the question is – how useful the acquired specific skills will be after a few generations of technological backwardness. So, in order to not regret the purchase of new technology, educational institutions are obligated to estimate the actual long-term costs of that investment, and how it will reflect on tuition fees that students and their parents need to pay. 

It is easier to cheat in exams 

A huge problem that teachers face is cheating on exams, and not having an insight into student knowledge of a lesson. This is also the biggest problem with online tests, because teachers often don’t know if students have access to another device while taking the test. This problem could have long-term consequences, primarily due to the inability of educational institutions to guarantee that the student actually possesses the knowledge needed for higher levels of education, or to do their job.  

Reduced number of teachers due to automation and reduced salaries 

With the introduction of technology in the curriculum, the role of the teacher as an authority figure and mediator is slowly fading. It should be noted that automation in education and the introduction of certain applications has led to a decrease in the number of teachers in modern schools. However, the remaining teachers have even more responsibilities than before, and their income is not increasing in proportion with their responsibilities, so many have had to give up their job. 

As we said earlier, describing the advantages of technology in education, children have the opportunity to access a wide spectrum of information that makes lessons more engaging, but the question is, how long does it take to prepare and integrate that content into a meaningful whole? So, increased responsibilities mostly refer to the preparations for class, the importance and complexity of which are underestimated by many, primarily because it is not visible to parents. 

The problem that needs to be addressed is that educational institutions should stop approaching teachers as manual laborers, and the first step toward that goal is increasing their salary and treating them with the respect they deserve, otherwise, we will have unmotivated teachers who don’t care about transferring knowledge to their students, and the consequence is a generation of individuals incapable of becoming useful members of society.   

Final thoughts on the pros and cons of technology in education

Different people have different opinions on the introduction of these changes in the education system, especially if it’s done so suddenly and in such a short time. However, one should be realistic, because the advantages still far outweigh the disadvantages. 

So, a continuous insistence on disadvantages should not be seen as a desire to return to traditional education, but as a reason for caution and the possibility to better see the holes in the technologies and methods used in education. It is up to educational institutions and teachers to analyze the disadvantages in the next revision, and improve the quality of teaching both in their digital and physical classrooms.

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Advantages & Disadvantages of Using Technology in Education Essay

Numerous advantages accrue to teachers who utilize technology not only in their teaching but also as a tool to interact with students across space and time. One of the significant advantages of using technology is that it enables teachers to design and implement interactive course materials that could be used to enhance learning experiences that are more pleasurable and meaningful to students.

There are millions of readily available applications and downloadable programs that teachers could use to design self-assessment tests to be administered to students via online protocols, not mentioning that science teachers often benefit immensely from the use of these free programs to design animations and simulations that could be used to elaborate complex scientific content to students.

From own experience, it can be stated that using simulations designed to teach students about the blood circulation system not only expose learners to a more pleasurable and exciting learning experience, but also ensure that learning outcomes are grasped and internalized with relative ease.

The second advantage of using technology, especially the World Wide Web, is that it has the capacity to bring isolated learners together in “virtual” groups without the limitations of space or time. Unlike in a traditional classroom context, teachers using the Web for teaching purposes enjoy the opportunity to teach and interact with disparate groups of learners located in diverse locations around the world.

Recent discoveries in Web-based technologies ensure that teachers are now able to interact with their students in real-time and to share resources across the network. In my teaching experience, I have made use of virtual classrooms to reach out to numerous students without necessarily making physical contact, not mentioning that I have also made use of the Web to get learning materials from my course instructors.

The third advantage is rested on the premise that it is indeed possible to not only protect intellectual property through the application of passwords and access codes but also to support confidential exchange of learning materials and information between registered users (Cantillon et al. 2003).

This implies that online technologies avail a safe and secure framework where learning, communication, and exchange of information can take place.

Using technology in education has obvious disadvantages. First, it is a well-known fact that teachers who use online assessments have no capacity to control the students’ unauthorized use of online resources and content to complete their assignments. Many teachers often face this hurdle and are unable to provide competitive assessments that could then be used to grade students on their performance.

However, in my view, performance in teaching should not be emphasized at the expense of task comprehension, implying that these assignments should be given in a manner that the teacher is able to evaluate the task comprehension of each student despite their use of online content to complete the tasks.

The second disadvantage arises from the fact that technology, if not well designed and adopted, will definitely provide students with the opportunity to collaborate with each other in taking their tests, therefore adversely affecting the core principles and justifications of good educational practice.

However, from own experience, it is indeed clear that teachers can now use the latest applications and plagiarism software not only to set availability dates and times for all assessments but also discourage students who would want to copy other people’s work and pass it as their own.

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22 Advantages and Disadvantages of Technology in Education

The modern classroom has taken several steps forward in its evolution of the learning environment in the past 25 years. Many of the benefits that we have seen in this setting are due to the introduction of new technology options for students. Instead of having a single computer for a class to use or a laboratory environment for the entire school placed in one room, we can now help students learn at their table or desk with items issued to them directly.

Our development of the Internet since 1989 has helped us to include more technological access to information in the modern classroom as well. If you grew up as an 80’s kid, then you had the A/V cart come into your class to watch educational videos and maybe have a snack. Now students get to play interactive learning games, compete against other students, and have their educational statistics tracked in real-time data to know where their point of focus should be.

Introducing technology to students in a classroom setting can certainly help the educational environment, but it also requires equal access for all students to ensure that everyone receives the same opportunities to success. That is why each school district, teacher, and parent should periodically review the advantages and disadvantages of technology in education settings.

List of the Advantages of Technology in Education

1. Technology helps children to stay motivated during the learning process. Most students don’t like to go to school if they feel like they are wasting their time. When there is technology allowed in the classroom, then teachers have an opportunity to let kids work at a pace which suits them the best without disturbing others. They can look up additional information about a subject they are learning about that day, play educational games that reinforce the lesson, or work on advanced material using a program like Zearn.

Because many of today’s technology options allow students to see how well they are doing compared to the average of all users, it gives them a chance to push harder for themselves and their education. Many of the programs that encourage learning also issue rewards or award certificates, which helps to make the lessons fun as well.

2. It encourages more communication between teachers and parents. When there is technology in the classroom, then there are more opportunities for parents and teachers to connect with each other. Using a blog for the classroom can help parents get to see what their children are learning each day. Apps and software options allow teachers to instantly report on a child’s behavior to let parents know in real-time what is happening throughout the day. There are options for chat boxes, instant messaging, and other forms of communication as well.

Let’s not forget about email here either. Since the 1990s when this technology option came into the classroom, it created more reliability in messaging between teachers and parents should there be a need to talk.

3. Technology options in the classroom are very affordable. Although the cost of having technology in the classroom can be significant if you are introducing new options to an entire district, the cost of student computers, tablets, and class essentials is minimal. Most student computers cost less than $200 each, and there are several grants available on local, state, and national levels that help to offset these costs to local taxpayers.

“The Internet is the first technology since the printing press which could lower the cost of a great education and, in doing so, make the cost-benefit analysis much easier for most students,” said John Katzman. “It could allow American schools to serve twice as many students as they do now, and in ways that are both effective and cost-effective.”

4. It creates new ways to learn for today’s student. There are three critical forms of intelligence that we see in children today: emotional, creative, and instructional. The traditional classroom environment, which typically encourages lecture-based lessons, focuses more on the latter option. Standardized tests and similar ranking tools do the same. When kids have access to technology today, then those who excel outside of the standard learning setup can still achieve their full potential.

Technology allows children to embrace their curiosity in multiple ways. They can try new things without embarrassment because their tech access gives them a level of anonymity. This process allows kids to work, through trial-and error if they wish, to see if a different strategy helps them to learn more effectively.

5. Technology allows us to give students access to data from a single location. Do you remember when a research project meant a visit to the library so that you could pull 4-5 books to read, have access to an encyclopedia, and even microfilm to view so that you had enough resources to finish your assignment? Technology allows a student to access every item they need for a project from a central resource. Instead of spending all of that time searching for something specific or waiting for your library to order it, you can run a few queries on Google and find what you need.

6. It gives us better access to behavioral data on students. The various apps, software choices, and technological platforms collect data on students that can show attendance patterns, learning issues in specific subjects, and how they react in particular situations. This information leads to the creation of a profile where teachers, schools, and parents can work together to identify places where additional learning may be necessary. Technology can even help a school district find their highly capable students to keep pushing them toward more challenging work so that they remain engaged with the learning environment.

7. Technology helps to prepare students for their future world. Even if there are warnings from medical providers about the amount of screen time that students receive in their classroom environment, the reality of the modern educational system is that we must have technology exposure now to prepare our children for the world they will face as adults. This sector will continue to evolve. If they are not prepared to use these items today, then tomorrow could be a struggle for them.

That means some traditional subjects might not be as important to teach for some schools or teachers. Is it more important to have a student learn how to write in cursive or know how to type without using the two-finger chicken-pecking method? Is coding more of a critical skill than learning how to cook? Should kids know how to put a chair together in woodshop or have the ability to put together their own computer?

These are the questions we need to be asking when looking at the advantages and disadvantages of technology in the classroom.

8. The introduction of technology allows for the teaching of needed vocational skills. Although there are regions of extreme poverty and isolation which do not have Internet access in the United States right now, over 90% of Americans have a home connection to online resources. By introducing technology to students from an early age, we can teach them the critical vocational skills that are necessary for success in a digital world. That is why writing continues to be a top priority in the K-4 grades, formatting guidelines and software use after, and knowing how to research efficiently is approached as an essential skill.

9. Technology in the classroom encourages collaboration. Students retain very little of the information they receive when a teacher lectures from a textbook. When there are interactive lessons on a chalkboard or whiteboard, kids can remember about 20% of what they were taught. If a teacher encourages a small group discussion, that percentage can quadruple.

Technology gives us an easy way to develop collaboration skills for students using online tools that encourage them to work together in safe ways. If kids can then practice what they were taught immediately, there is very little that they will forget.

10. It encourages students to stay engaged with their learning environment. Kids get bored very easily when they feel like they already know what is being taught in their classroom. Some children will transform into mentors or leaders in this situation to help their fellow students, but there are many more who disengage because they lack stimulation. By introducing technology to the classroom, there are fewer places where repetitive learning must take place. Teachers can introduce new subjects, try new techniques, or use different projects to encourage ongoing learning, which creates more overall engagement.

11. Teachers have more credibility when they use technology in the classroom. Teachers are sometimes hesitant to use technology in the classroom because they are unsure of what a student might have at home. Giving homework assignments that require computer access to a student without that technology at home would be a waste of time. There can also be pushback from parents who are uncomfortable giving their kids additional screen time for learning. When you can introduce these elements to the classroom and have children learn there, then you can overcome the socioeconomic barriers that are sometimes in place for low-income families.

List of the Disadvantages of Technology in Education

1. The presence of technology can be distracting to students. When kids play video games, they can find themselves reacting with addiction-like behaviors. Their focus is on the entertainment they receive more than anything else. If the educational environment uses reward-based games to encourage learning, then the child might be more concerned with what they receive through the software or app instead of what they are learning.

Although correct answers can be an indication of knowledge, there might not be as much information retention as hoped. Teachers must set and enforce healthy boundaries when using technology in the classroom to ensure healthy results are possible.

2. Technology can make it easier to cheat. Remember the TV shows and movies where kids would break into a teacher’s classroom, steal the answer key to a test, and then write down everything on their wrist, shoe, or a slip of paper? Now a student can send themselves a text with that information. They can send that data to anyone else with a phone. Email can relay this info too. There must also be strict rules in place about the use of technology during quizzes or tests when an exact measurement of student knowledge is needed to evaluate their overall progress.

3. Using tech can cause some students to disconnect from the classroom. Interacting online with others is a different experience than when you collaborate over the Internet with someone. Being behind a screen provides you with a layer of anonymity that you don’t receive with a face-to-face conversation. Learning how to work with one another using technology is an essential skill, but it cannot be the other option that teachers introduce to their classroom. We must encourage social interactions that accurately communicate thoughts, feelings, or emotions so that when a child is offline, they can still make a better life for themselves.

4. Some students may not know the difference between reliable and unreliable resources. There is a lot of information on the Internet today that is fake or exaggerated in some way, but it masquerades as being real. According to research published by New York Magazine, less than 60% of web traffic today is actually human-based searches or content interaction. Up to half of the traffic on YouTube each year are bots that masquerade as people. Not only is the content sometimes fake, but then also the users might not be real too. Teachers must show students how to access real information, show them how to verify its validity, and then encourage them to use it appropriately.

5. Technology is a resource that not all families can afford. Whether technology is in the classroom or at home, there is the issue of affordability to worry about in today’s world. Some households cannot afford to purchase computers for their kids to manage their school work. There are school districts that don’t have enough money to pay their salaries each year, much less add new tech components for learning.

When we emphasize having technology in the classroom, then we place those at the lowest end of the wage scale at a significant disadvantage. Students with greater access can learn more and have access to lessons more often, which means they have additional information exposure that can increase their opportunities to succeed.

6. Some technologies could replace the teacher in some classrooms. Interactive learning lessons are so effective today that the software or app can become the teacher instead of having someone present to help a student. One of the best examples of this potential disadvantage is ABC Mouse, which provides clear instructions to students as young as 3 so that they can start learning when they are ready.

Instead of being in a hands-on role, technology makes the teacher more of an observer. New tech automates the learning process while adapting to changing student needs.

7. There are privacy concerns to consider with technology in the classroom. Over 15 million people each year experience identity theft in some way. It is a criminal empire that costs the economy over $16 billion per year. Since 2011, over $100 billion in losses have happened because of this issue. One of the reasons why it is becoming more prevalent is because more people have greater access to technology today.

When we introduce technology to the classroom, we are placing the identity of our children at risk every day. Even when apps, computers, mobile devices, and operating systems have advanced privacy filters that reduce the threat of identity loss, there is no way to guarantee that all risks are gone unless the equipment never goes online. If we take this step, then we end up losing many of the advantages of having technology in the classroom in the first place.

8. Technology in the classroom could create medical problems for some kids. Eye strain occurs when you look at a computer screen for too long. Symptoms of this issue include back pain, eye pain, neck pain, feelings of tiredness, blurred vision, and problems with focus. Continuous heavy computer usage may lead to issues with early myopia, with a prevalence rate of more than 60% for those older than the age of 12. For some people, the impact of this health issue is cumulative, which means the time they spend in front of a phone, tablet, and television can contribute to eye health issues as well.

9. Kids often lose track of time when using technology in the classroom. Although kids can adapt to changing environments without much of a second thought, their idea of normal is often defined by what they experience in the classroom. Teachers and schools have as much, if not more, time with children than their parents throughout the day, which means the classroom becomes an influential part of life for each student. Encouraging the use of tech might help to create more learning opportunities, but it can also lead to a lifestyle that is more sedentary.

When children sit for too long during the day, then they face the same health challenges that adults do when not getting enough exercise. There can be problems with obesity, hyperactivity, muscle fatigue, sleeping problems, and metabolism issues with prolonged sitting. That is why any school that introduces technology to the classroom should also encourage at least 30 minutes of moderate physical activity whenever possible.

10. Many classrooms place limits on technology access. Because of the awareness that schools have with the potential disadvantages that technology can cause in the classroom, there are limits placed on the use of items under the guise of child protection. Although firewalls and site blockers can prevent most dangerous content from reaching the eyes of children, it is not unusual to see this issue taken a step further by restricting computer work to word processing and basic research. Students come home with assignments to use tech of their own, at a library, or through a loan program to place this responsibility on the parents instead.

If we force limits on children instead of teaching them how to make wise choices, then is that really giving them a learning environment?

11. Technology can create dependencies for information recall. If you cannot recall a piece of information instantly, then what is your next step to find an answer? Most people would say that they would look online for the data they want or ask a virtual assistant, like Alexa, to give them the answer. Having access to a treasure-trove of resources is wonderful, but it can also create a dependency because of its presence. If we do not teach students how to recall info by themselves without the use of a smart device or computer, then the next generation of students may be unable to function unless there is technology for them to access.

Verdict on the Advantages and Disadvantages of Technology in the Classroom

These advantages and disadvantages of technology in the classroom indicate that students and teachers can be more effective in their roles with its presence. Although there can be varying levels of comfort based on the amount of exposure each person has to computers, electronic whiteboards, and other items, an introduction of new tech is an investment that can offer ongoing dividends.

There are times when technology can provide new experiences to a student. Teachers can use apps and software to reach kids that might normally disconnect from the classroom.

Technology in the classroom opens more doors, introduces new experiences, and creates more opportunities for self-discovery. The positive aspects that occur with school integration typically outweigh any of the issues that a district might encounter.

REALIZING THE PROMISE:

Leading up to the 75th anniversary of the UN General Assembly, this “Realizing the promise: How can education technology improve learning for all?” publication kicks off the Center for Universal Education’s first playbook in a series to help improve education around the world.

It is intended as an evidence-based tool for ministries of education, particularly in low- and middle-income countries, to adopt and more successfully invest in education technology.

While there is no single education initiative that will achieve the same results everywhere—as school systems differ in learners and educators, as well as in the availability and quality of materials and technologies—an important first step is understanding how technology is used given specific local contexts and needs.

The surveys in this playbook are designed to be adapted to collect this information from educators, learners, and school leaders and guide decisionmakers in expanding the use of technology.  

Introduction

While technology has disrupted most sectors of the economy and changed how we communicate, access information, work, and even play, its impact on schools, teaching, and learning has been much more limited. We believe that this limited impact is primarily due to technology being been used to replace analog tools, without much consideration given to playing to technology’s comparative advantages. These comparative advantages, relative to traditional “chalk-and-talk” classroom instruction, include helping to scale up standardized instruction, facilitate differentiated instruction, expand opportunities for practice, and increase student engagement. When schools use technology to enhance the work of educators and to improve the quality and quantity of educational content, learners will thrive.

Further, COVID-19 has laid bare that, in today’s environment where pandemics and the effects of climate change are likely to occur, schools cannot always provide in-person education—making the case for investing in education technology.

Here we argue for a simple yet surprisingly rare approach to education technology that seeks to:

  • Understand the needs, infrastructure, and capacity of a school system—the diagnosis;
  • Survey the best available evidence on interventions that match those conditions—the evidence; and
  • Closely monitor the results of innovations before they are scaled up—the prognosis.

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The framework.

Our approach builds on a simple yet intuitive theoretical framework created two decades ago by two of the most prominent education researchers in the United States, David K. Cohen and Deborah Loewenberg Ball. They argue that what matters most to improve learning is the interactions among educators and learners around educational materials. We believe that the failed school-improvement efforts in the U.S. that motivated Cohen and Ball’s framework resemble the ed-tech reforms in much of the developing world to date in the lack of clarity improving the interactions between educators, learners, and the educational material. We build on their framework by adding parents as key agents that mediate the relationships between learners and educators and the material (Figure 1).

Figure 1: The instructional core

Adapted from Cohen and Ball (1999)

As the figure above suggests, ed-tech interventions can affect the instructional core in a myriad of ways. Yet, just because technology can do something, it does not mean it should. School systems in developing countries differ along many dimensions and each system is likely to have different needs for ed-tech interventions, as well as different infrastructure and capacity to enact such interventions.

The diagnosis:

How can school systems assess their needs and preparedness.

A useful first step for any school system to determine whether it should invest in education technology is to diagnose its:

  • Specific needs to improve student learning (e.g., raising the average level of achievement, remediating gaps among low performers, and challenging high performers to develop higher-order skills);
  • Infrastructure to adopt technology-enabled solutions (e.g., electricity connection, availability of space and outlets, stock of computers, and Internet connectivity at school and at learners’ homes); and
  • Capacity to integrate technology in the instructional process (e.g., learners’ and educators’ level of familiarity and comfort with hardware and software, their beliefs about the level of usefulness of technology for learning purposes, and their current uses of such technology).

Before engaging in any new data collection exercise, school systems should take full advantage of existing administrative data that could shed light on these three main questions. This could be in the form of internal evaluations but also international learner assessments, such as the Program for International Student Assessment (PISA), the Trends in International Mathematics and Science Study (TIMSS), and/or the Progress in International Literacy Study (PIRLS), and the Teaching and Learning International Study (TALIS). But if school systems lack information on their preparedness for ed-tech reforms or if they seek to complement existing data with a richer set of indicators, we developed a set of surveys for learners, educators, and school leaders. Download the full report to see how we map out the main aspects covered by these surveys, in hopes of highlighting how they could be used to inform decisions around the adoption of ed-tech interventions.

The evidence:

How can school systems identify promising ed-tech interventions.

There is no single “ed-tech” initiative that will achieve the same results everywhere, simply because school systems differ in learners and educators, as well as in the availability and quality of materials and technologies. Instead, to realize the potential of education technology to accelerate student learning, decisionmakers should focus on four potential uses of technology that play to its comparative advantages and complement the work of educators to accelerate student learning (Figure 2). These comparative advantages include:

  • Scaling up quality instruction, such as through prerecorded quality lessons.
  • Facilitating differentiated instruction, through, for example, computer-adaptive learning and live one-on-one tutoring.
  • Expanding opportunities to practice.
  • Increasing learner engagement through videos and games.

Figure 2: Comparative advantages of technology

Here we review the evidence on ed-tech interventions from 37 studies in 20 countries*, organizing them by comparative advantage. It’s important to note that ours is not the only way to classify these interventions (e.g., video tutorials could be considered as a strategy to scale up instruction or increase learner engagement), but we believe it may be useful to highlight the needs that they could address and why technology is well positioned to do so.

When discussing specific studies, we report the magnitude of the effects of interventions using standard deviations (SDs). SDs are a widely used metric in research to express the effect of a program or policy with respect to a business-as-usual condition (e.g., test scores). There are several ways to make sense of them. One is to categorize the magnitude of the effects based on the results of impact evaluations. In developing countries, effects below 0.1 SDs are considered to be small, effects between 0.1 and 0.2 SDs are medium, and those above 0.2 SDs are large (for reviews that estimate the average effect of groups of interventions, called “meta analyses,” see e.g., Conn, 2017; Kremer, Brannen, & Glennerster, 2013; McEwan, 2014; Snilstveit et al., 2015; Evans & Yuan, 2020.)

*In surveying the evidence, we began by compiling studies from prior general and ed-tech specific evidence reviews that some of us have written and from ed-tech reviews conducted by others. Then, we tracked the studies cited by the ones we had previously read and reviewed those, as well. In identifying studies for inclusion, we focused on experimental and quasi-experimental evaluations of education technology interventions from pre-school to secondary school in low- and middle-income countries that were released between 2000 and 2020. We only included interventions that sought to improve student learning directly (i.e., students’ interaction with the material), as opposed to interventions that have impacted achievement indirectly, by reducing teacher absence or increasing parental engagement. This process yielded 37 studies in 20 countries (see the full list of studies in Appendix B).

Scaling up standardized instruction

One of the ways in which technology may improve the quality of education is through its capacity to deliver standardized quality content at scale. This feature of technology may be particularly useful in three types of settings: (a) those in “hard-to-staff” schools (i.e., schools that struggle to recruit educators with the requisite training and experience—typically, in rural and/or remote areas) (see, e.g., Urquiola & Vegas, 2005); (b) those in which many educators are frequently absent from school (e.g., Chaudhury, Hammer, Kremer, Muralidharan, & Rogers, 2006; Muralidharan, Das, Holla, & Mohpal, 2017); and/or (c) those in which educators have low levels of pedagogical and subject matter expertise (e.g., Bietenbeck, Piopiunik, & Wiederhold, 2018; Bold et al., 2017; Metzler & Woessmann, 2012; Santibañez, 2006) and do not have opportunities to observe and receive feedback (e.g., Bruns, Costa, & Cunha, 2018; Cilliers, Fleisch, Prinsloo, & Taylor, 2018). Technology could address this problem by: (a) disseminating lessons delivered by qualified educators to a large number of learners (e.g., through prerecorded or live lessons); (b) enabling distance education (e.g., for learners in remote areas and/or during periods of school closures); and (c) distributing hardware preloaded with educational materials.

Prerecorded lessons

Technology seems to be well placed to amplify the impact of effective educators by disseminating their lessons. Evidence on the impact of prerecorded lessons is encouraging, but not conclusive. Some initiatives that have used short instructional videos to complement regular instruction, in conjunction with other learning materials, have raised student learning on independent assessments. For example, Beg et al. (2020) evaluated an initiative in Punjab, Pakistan in which grade 8 classrooms received an intervention that included short videos to substitute live instruction, quizzes for learners to practice the material from every lesson, tablets for educators to learn the material and follow the lesson, and LED screens to project the videos onto a classroom screen. After six months, the intervention improved the performance of learners on independent tests of math and science by 0.19 and 0.24 SDs, respectively but had no discernible effect on the math and science section of Punjab’s high-stakes exams.

One study suggests that approaches that are far less technologically sophisticated can also improve learning outcomes—especially, if the business-as-usual instruction is of low quality. For example, Naslund-Hadley, Parker, and Hernandez-Agramonte (2014) evaluated a preschool math program in Cordillera, Paraguay that used audio segments and written materials four days per week for an hour per day during the school day. After five months, the intervention improved math scores by 0.16 SDs, narrowing gaps between low- and high-achieving learners, and between those with and without educators with formal training in early childhood education.

Yet, the integration of prerecorded material into regular instruction has not always been successful. For example, de Barros (2020) evaluated an intervention that combined instructional videos for math and science with infrastructure upgrades (e.g., two “smart” classrooms, two TVs, and two tablets), printed workbooks for students, and in-service training for educators of learners in grades 9 and 10 in Haryana, India (all materials were mapped onto the official curriculum). After 11 months, the intervention negatively impacted math achievement (by 0.08 SDs) and had no effect on science (with respect to business as usual classes). It reduced the share of lesson time that educators devoted to instruction and negatively impacted an index of instructional quality. Likewise, Seo (2017) evaluated several combinations of infrastructure (solar lights and TVs) and prerecorded videos (in English and/or bilingual) for grade 11 students in northern Tanzania and found that none of the variants improved student learning, even when the videos were used. The study reports effects from the infrastructure component across variants, but as others have noted (Muralidharan, Romero, & Wüthrich, 2019), this approach to estimating impact is problematic.

A very similar intervention delivered after school hours, however, had sizeable effects on learners’ basic skills. Chiplunkar, Dhar, and Nagesh (2020) evaluated an initiative in Chennai (the capital city of the state of Tamil Nadu, India) delivered by the same organization as above that combined short videos that explained key concepts in math and science with worksheets, facilitator-led instruction, small groups for peer-to-peer learning, and occasional career counseling and guidance for grade 9 students. These lessons took place after school for one hour, five times a week. After 10 months, it had large effects on learners’ achievement as measured by tests of basic skills in math and reading, but no effect on a standardized high-stakes test in grade 10 or socio-emotional skills (e.g., teamwork, decisionmaking, and communication).

Drawing general lessons from this body of research is challenging for at least two reasons. First, all of the studies above have evaluated the impact of prerecorded lessons combined with several other components (e.g., hardware, print materials, or other activities). Therefore, it is possible that the effects found are due to these additional components, rather than to the recordings themselves, or to the interaction between the two (see Muralidharan, 2017 for a discussion of the challenges of interpreting “bundled” interventions). Second, while these studies evaluate some type of prerecorded lessons, none examines the content of such lessons. Thus, it seems entirely plausible that the direction and magnitude of the effects depends largely on the quality of the recordings (e.g., the expertise of the educator recording it, the amount of preparation that went into planning the recording, and its alignment with best teaching practices).

These studies also raise three important questions worth exploring in future research. One of them is why none of the interventions discussed above had effects on high-stakes exams, even if their materials are typically mapped onto the official curriculum. It is possible that the official curricula are simply too challenging for learners in these settings, who are several grade levels behind expectations and who often need to reinforce basic skills (see Pritchett & Beatty, 2015). Another question is whether these interventions have long-term effects on teaching practices. It seems plausible that, if these interventions are deployed in contexts with low teaching quality, educators may learn something from watching the videos or listening to the recordings with learners. Yet another question is whether these interventions make it easier for schools to deliver instruction to learners whose native language is other than the official medium of instruction.

Distance education

Technology can also allow learners living in remote areas to access education. The evidence on these initiatives is encouraging. For example, Johnston and Ksoll (2017) evaluated a program that broadcasted live instruction via satellite to rural primary school students in the Volta and Greater Accra regions of Ghana. For this purpose, the program also equipped classrooms with the technology needed to connect to a studio in Accra, including solar panels, a satellite modem, a projector, a webcam, microphones, and a computer with interactive software. After two years, the intervention improved the numeracy scores of students in grades 2 through 4, and some foundational literacy tasks, but it had no effect on attendance or classroom time devoted to instruction, as captured by school visits. The authors interpreted these results as suggesting that the gains in achievement may be due to improving the quality of instruction that children received (as opposed to increased instructional time). Naik, Chitre, Bhalla, and Rajan (2019) evaluated a similar program in the Indian state of Karnataka and also found positive effects on learning outcomes, but it is not clear whether those effects are due to the program or due to differences in the groups of students they compared to estimate the impact of the initiative.

In one context (Mexico), this type of distance education had positive long-term effects. Navarro-Sola (2019) took advantage of the staggered rollout of the telesecundarias (i.e., middle schools with lessons broadcasted through satellite TV) in 1968 to estimate its impact. The policy had short-term effects on students’ enrollment in school: For every telesecundaria per 50 children, 10 students enrolled in middle school and two pursued further education. It also had a long-term influence on the educational and employment trajectory of its graduates. Each additional year of education induced by the policy increased average income by nearly 18 percent. This effect was attributable to more graduates entering the labor force and shifting from agriculture and the informal sector. Similarly, Fabregas (2019) leveraged a later expansion of this policy in 1993 and found that each additional telesecundaria per 1,000 adolescents led to an average increase of 0.2 years of education, and a decline in fertility for women, but no conclusive evidence of long-term effects on labor market outcomes.

It is crucial to interpret these results keeping in mind the settings where the interventions were implemented. As we mention above, part of the reason why they have proven effective is that the “counterfactual” conditions for learning (i.e., what would have happened to learners in the absence of such programs) was either to not have access to schooling or to be exposed to low-quality instruction. School systems interested in taking up similar interventions should assess the extent to which their learners (or parts of their learner population) find themselves in similar conditions to the subjects of the studies above. This illustrates the importance of assessing the needs of a system before reviewing the evidence.

Preloaded hardware

Technology also seems well positioned to disseminate educational materials. Specifically, hardware (e.g., desktop computers, laptops, or tablets) could also help deliver educational software (e.g., word processing, reference texts, and/or games). In theory, these materials could not only undergo a quality assurance review (e.g., by curriculum specialists and educators), but also draw on the interactions with learners for adjustments (e.g., identifying areas needing reinforcement) and enable interactions between learners and educators.

In practice, however, most initiatives that have provided learners with free computers, laptops, and netbooks do not leverage any of the opportunities mentioned above. Instead, they install a standard set of educational materials and hope that learners find them helpful enough to take them up on their own. Students rarely do so, and instead use the laptops for recreational purposes—often, to the detriment of their learning (see, e.g., Malamud & Pop-Eleches, 2011). In fact, free netbook initiatives have not only consistently failed to improve academic achievement in math or language (e.g., Cristia et al., 2017), but they have had no impact on learners’ general computer skills (e.g., Beuermann et al., 2015). Some of these initiatives have had small impacts on cognitive skills, but the mechanisms through which those effects occurred remains unclear.

To our knowledge, the only successful deployment of a free laptop initiative was one in which a team of researchers equipped the computers with remedial software. Mo et al. (2013) evaluated a version of the One Laptop per Child (OLPC) program for grade 3 students in migrant schools in Beijing, China in which the laptops were loaded with a remedial software mapped onto the national curriculum for math (similar to the software products that we discuss under “practice exercises” below). After nine months, the program improved math achievement by 0.17 SDs and computer skills by 0.33 SDs. If a school system decides to invest in free laptops, this study suggests that the quality of the software on the laptops is crucial.

To date, however, the evidence suggests that children do not learn more from interacting with laptops than they do from textbooks. For example, Bando, Gallego, Gertler, and Romero (2016) compared the effect of free laptop and textbook provision in 271 elementary schools in disadvantaged areas of Honduras. After seven months, students in grades 3 and 6 who had received the laptops performed on par with those who had received the textbooks in math and language. Further, even if textbooks essentially become obsolete at the end of each school year, whereas laptops can be reloaded with new materials for each year, the costs of laptop provision (not just the hardware, but also the technical assistance, Internet, and training associated with it) are not yet low enough to make them a more cost-effective way of delivering content to learners.

Evidence on the provision of tablets equipped with software is encouraging but limited. For example, de Hoop et al. (2020) evaluated a composite intervention for first grade students in Zambia’s Eastern Province that combined infrastructure (electricity via solar power), hardware (projectors and tablets), and educational materials (lesson plans for educators and interactive lessons for learners, both loaded onto the tablets and mapped onto the official Zambian curriculum). After 14 months, the intervention had improved student early-grade reading by 0.4 SDs, oral vocabulary scores by 0.25 SDs, and early-grade math by 0.22 SDs. It also improved students’ achievement by 0.16 on a locally developed assessment. The multifaceted nature of the program, however, makes it challenging to identify the components that are driving the positive effects. Pitchford (2015) evaluated an intervention that provided tablets equipped with educational “apps,” to be used for 30 minutes per day for two months to develop early math skills among students in grades 1 through 3 in Lilongwe, Malawi. The evaluation found positive impacts in math achievement, but the main study limitation is that it was conducted in a single school.

Facilitating differentiated instruction

Another way in which technology may improve educational outcomes is by facilitating the delivery of differentiated or individualized instruction. Most developing countries massively expanded access to schooling in recent decades by building new schools and making education more affordable, both by defraying direct costs, as well as compensating for opportunity costs (Duflo, 2001; World Bank, 2018). These initiatives have not only rapidly increased the number of learners enrolled in school, but have also increased the variability in learner’ preparation for schooling. Consequently, a large number of learners perform well below grade-based curricular expectations (see, e.g., Duflo, Dupas, & Kremer, 2011; Pritchett & Beatty, 2015). These learners are unlikely to get much from “one-size-fits-all” instruction, in which a single educator delivers instruction deemed appropriate for the middle (or top) of the achievement distribution (Banerjee & Duflo, 2011). Technology could potentially help these learners by providing them with: (a) instruction and opportunities for practice that adjust to the level and pace of preparation of each individual (known as “computer-adaptive learning” (CAL)); or (b) live, one-on-one tutoring.

Computer-adaptive learning

One of the main comparative advantages of technology is its ability to diagnose students’ initial learning levels and assign students to instruction and exercises of appropriate difficulty. No individual educator—no matter how talented—can be expected to provide individualized instruction to all learners in his/her class simultaneously . In this respect, technology is uniquely positioned to complement traditional teaching. This use of technology could help learners master basic skills and help them get more out of schooling.

Although many software products evaluated in recent years have been categorized as CAL, many rely on a relatively coarse level of differentiation at an initial stage (e.g., a diagnostic test) without further differentiation. We discuss these initiatives under the category of “increasing opportunities for practice” below. CAL initiatives complement an initial diagnostic with dynamic adaptation (i.e., at each response or set of responses from learners) to adjust both the initial level of difficulty and rate at which it increases or decreases, depending on whether learners’ responses are correct or incorrect.

Existing evidence on this specific type of programs is highly promising. Most famously, Banerjee et al. (2007) evaluated CAL software in Vadodara, in the Indian state of Gujarat, in which grade 4 students were offered two hours of shared computer time per week before and after school, during which they played games that involved solving math problems. The level of difficulty of such problems adjusted based on students’ answers. This program improved math achievement by 0.35 and 0.47 SDs after one and two years of implementation, respectively. Consistent with the promise of personalized learning, the software improved achievement for all students. In fact, one year after the end of the program, students assigned to the program still performed 0.1 SDs better than those assigned to a business as usual condition. More recently, Muralidharan, et al. (2019) evaluated a “blended learning” initiative in which students in grades 4 through 9 in Delhi, India received 45 minutes of interaction with CAL software for math and language, and 45 minutes of small group instruction before or after going to school. After only 4.5 months, the program improved achievement by 0.37 SDs in math and 0.23 SDs in Hindi. While all learners benefited from the program in absolute terms, the lowest performing learners benefited the most in relative terms, since they were learning very little in school.

We see two important limitations from this body of research. First, to our knowledge, none of these initiatives has been evaluated when implemented during the school day. Therefore, it is not possible to distinguish the effect of the adaptive software from that of additional instructional time. Second, given that most of these programs were facilitated by local instructors, attempts to distinguish the effect of the software from that of the instructors has been mostly based on noncausal evidence. A frontier challenge in this body of research is to understand whether CAL software can increase the effectiveness of school-based instruction by substituting part of the regularly scheduled time for math and language instruction.

Live one-on-one tutoring

Recent improvements in the speed and quality of videoconferencing, as well as in the connectivity of remote areas, have enabled yet another way in which technology can help personalization: live (i.e., real-time) one-on-one tutoring. While the evidence on in-person tutoring is scarce in developing countries, existing studies suggest that this approach works best when it is used to personalize instruction (see, e.g., Banerjee et al., 2007; Banerji, Berry, & Shotland, 2015; Cabezas, Cuesta, & Gallego, 2011).

There are almost no studies on the impact of online tutoring—possibly, due to the lack of hardware and Internet connectivity in low- and middle-income countries. One exception is Chemin and Oledan (2020)’s recent evaluation of an online tutoring program for grade 6 students in Kianyaga, Kenya to learn English from volunteers from a Canadian university via Skype ( videoconferencing software) for one hour per week after school. After 10 months, program beneficiaries performed 0.22 SDs better in a test of oral comprehension, improved their comfort using technology for learning, and became more willing to engage in cross-cultural communication. Importantly, while the tutoring sessions used the official English textbooks and sought in part to help learners with their homework, tutors were trained on several strategies to teach to each learner’s individual level of preparation, focusing on basic skills if necessary. To our knowledge, similar initiatives within a country have not yet been rigorously evaluated.

Expanding opportunities for practice

A third way in which technology may improve the quality of education is by providing learners with additional opportunities for practice. In many developing countries, lesson time is primarily devoted to lectures, in which the educator explains the topic and the learners passively copy explanations from the blackboard. This setup leaves little time for in-class practice. Consequently, learners who did not understand the explanation of the material during lecture struggle when they have to solve homework assignments on their own. Technology could potentially address this problem by allowing learners to review topics at their own pace.

Practice exercises

Technology can help learners get more out of traditional instruction by providing them with opportunities to implement what they learn in class. This approach could, in theory, allow some learners to anchor their understanding of the material through trial and error (i.e., by realizing what they may not have understood correctly during lecture and by getting better acquainted with special cases not covered in-depth in class).

Existing evidence on practice exercises reflects both the promise and the limitations of this use of technology in developing countries. For example, Lai et al. (2013) evaluated a program in Shaanxi, China where students in grades 3 and 5 were required to attend two 40-minute remedial sessions per week in which they first watched videos that reviewed the material that had been introduced in their math lessons that week and then played games to practice the skills introduced in the video. After four months, the intervention improved math achievement by 0.12 SDs. Many other evaluations of comparable interventions have found similar small-to-moderate results (see, e.g., Lai, Luo, Zhang, Huang, & Rozelle, 2015; Lai et al., 2012; Mo et al., 2015; Pitchford, 2015). These effects, however, have been consistently smaller than those of initiatives that adjust the difficulty of the material based on students’ performance (e.g., Banerjee et al., 2007; Muralidharan, et al., 2019). We hypothesize that these programs do little for learners who perform several grade levels behind curricular expectations, and who would benefit more from a review of foundational concepts from earlier grades.

We see two important limitations from this research. First, most initiatives that have been evaluated thus far combine instructional videos with practice exercises, so it is hard to know whether their effects are driven by the former or the latter. In fact, the program in China described above allowed learners to ask their peers whenever they did not understand a difficult concept, so it potentially also captured the effect of peer-to-peer collaboration. To our knowledge, no studies have addressed this gap in the evidence.

Second, most of these programs are implemented before or after school, so we cannot distinguish the effect of additional instructional time from that of the actual opportunity for practice. The importance of this question was first highlighted by Linden (2008), who compared two delivery mechanisms for game-based remedial math software for students in grades 2 and 3 in a network of schools run by a nonprofit organization in Gujarat, India: one in which students interacted with the software during the school day and another one in which students interacted with the software before or after school (in both cases, for three hours per day). After a year, the first version of the program had negatively impacted students’ math achievement by 0.57 SDs and the second one had a null effect. This study suggested that computer-assisted learning is a poor substitute for regular instruction when it is of high quality, as was the case in this well-functioning private network of schools.

In recent years, several studies have sought to remedy this shortcoming. Mo et al. (2014) were among the first to evaluate practice exercises delivered during the school day. They evaluated an initiative in Shaanxi, China in which students in grades 3 and 5 were required to interact with the software similar to the one in Lai et al. (2013) for two 40-minute sessions per week. The main limitation of this study, however, is that the program was delivered during regularly scheduled computer lessons, so it could not determine the impact of substituting regular math instruction. Similarly, Mo et al. (2020) evaluated a self-paced and a teacher-directed version of a similar program for English for grade 5 students in Qinghai, China. Yet, the key shortcoming of this study is that the teacher-directed version added several components that may also influence achievement, such as increased opportunities for teachers to provide students with personalized assistance when they struggled with the material. Ma, Fairlie, Loyalka, and Rozelle (2020) compared the effectiveness of additional time-delivered remedial instruction for students in grades 4 to 6 in Shaanxi, China through either computer-assisted software or using workbooks. This study indicates whether additional instructional time is more effective when using technology, but it does not address the question of whether school systems may improve the productivity of instructional time during the school day by substituting educator-led with computer-assisted instruction.

Increasing learner engagement

Another way in which technology may improve education is by increasing learners’ engagement with the material. In many school systems, regular “chalk and talk” instruction prioritizes time for educators’ exposition over opportunities for learners to ask clarifying questions and/or contribute to class discussions. This, combined with the fact that many developing-country classrooms include a very large number of learners (see, e.g., Angrist & Lavy, 1999; Duflo, Dupas, & Kremer, 2015), may partially explain why the majority of those students are several grade levels behind curricular expectations (e.g., Muralidharan, et al., 2019; Muralidharan & Zieleniak, 2014; Pritchett & Beatty, 2015). Technology could potentially address these challenges by: (a) using video tutorials for self-paced learning and (b) presenting exercises as games and/or gamifying practice.

Video tutorials

Technology can potentially increase learner effort and understanding of the material by finding new and more engaging ways to deliver it. Video tutorials designed for self-paced learning—as opposed to videos for whole class instruction, which we discuss under the category of “prerecorded lessons” above—can increase learner effort in multiple ways, including: allowing learners to focus on topics with which they need more help, letting them correct errors and misconceptions on their own, and making the material appealing through visual aids. They can increase understanding by breaking the material into smaller units and tackling common misconceptions.

In spite of the popularity of instructional videos, there is relatively little evidence on their effectiveness. Yet, two recent evaluations of different versions of the Khan Academy portal, which mainly relies on instructional videos, offer some insight into their impact. First, Ferman, Finamor, and Lima (2019) evaluated an initiative in 157 public primary and middle schools in five cities in Brazil in which the teachers of students in grades 5 and 9 were taken to the computer lab to learn math from the platform for 50 minutes per week. The authors found that, while the intervention slightly improved learners’ attitudes toward math, these changes did not translate into better performance in this subject. The authors hypothesized that this could be due to the reduction of teacher-led math instruction.

More recently, Büchel, Jakob, Kühnhanss, Steffen, and Brunetti (2020) evaluated an after-school, offline delivery of the Khan Academy portal in grades 3 through 6 in 302 primary schools in Morazán, El Salvador. Students in this study received 90 minutes per week of additional math instruction (effectively nearly doubling total math instruction per week) through teacher-led regular lessons, teacher-assisted Khan Academy lessons, or similar lessons assisted by technical supervisors with no content expertise. (Importantly, the first group provided differentiated instruction, which is not the norm in Salvadorian schools). All three groups outperformed both schools without any additional lessons and classrooms without additional lessons in the same schools as the program. The teacher-assisted Khan Academy lessons performed 0.24 SDs better, the supervisor-led lessons 0.22 SDs better, and the teacher-led regular lessons 0.15 SDs better, but the authors could not determine whether the effects across versions were different.

Together, these studies suggest that instructional videos work best when provided as a complement to, rather than as a substitute for, regular instruction. Yet, the main limitation of these studies is the multifaceted nature of the Khan Academy portal, which also includes other components found to positively improve learner achievement, such as differentiated instruction by students’ learning levels. While the software does not provide the type of personalization discussed above, learners are asked to take a placement test and, based on their score, educators assign them different work. Therefore, it is not clear from these studies whether the effects from Khan Academy are driven by its instructional videos or to the software’s ability to provide differentiated activities when combined with placement tests.

Games and gamification

Technology can also increase learner engagement by presenting exercises as games and/or by encouraging learner to play and compete with others (e.g., using leaderboards and rewards)—an approach known as “gamification.” Both approaches can increase learner motivation and effort by presenting learners with entertaining opportunities for practice and by leveraging peers as commitment devices.

There are very few studies on the effects of games and gamification in low- and middle-income countries. Recently, Araya, Arias Ortiz, Bottan, and Cristia (2019) evaluated an initiative in which grade 4 students in Santiago, Chile were required to participate in two 90-minute sessions per week during the school day with instructional math software featuring individual and group competitions (e.g., tracking each learner’s standing in his/her class and tournaments between sections). After nine months, the program led to improvements of 0.27 SDs in the national student assessment in math (it had no spillover effects on reading). However, it had mixed effects on non-academic outcomes. Specifically, the program increased learners’ willingness to use computers to learn math, but, at the same time, increased their anxiety toward math and negatively impacted learners’ willingness to collaborate with peers. Finally, given that one of the weekly sessions replaced regular math instruction and the other one represented additional math instructional time, it is not clear whether the academic effects of the program are driven by the software or the additional time devoted to learning math.

The prognosis:

How can school systems adopt interventions that match their needs.

Here are five specific and sequential guidelines for decisionmakers to realize the potential of education technology to accelerate student learning.

1. Take stock of how your current schools, educators, and learners are engaging with technology .

Carry out a short in-school survey to understand the current practices and potential barriers to adoption of technology (we have included suggested survey instruments in the Appendices); use this information in your decisionmaking process. For example, we learned from conversations with current and former ministers of education from various developing regions that a common limitation to technology use is regulations that hold school leaders accountable for damages to or losses of devices. Another common barrier is lack of access to electricity and Internet, or even the availability of sufficient outlets for charging devices in classrooms. Understanding basic infrastructure and regulatory limitations to the use of education technology is a first necessary step. But addressing these limitations will not guarantee that introducing or expanding technology use will accelerate learning. The next steps are thus necessary.

“In Africa, the biggest limit is connectivity. Fiber is expensive, and we don’t have it everywhere. The continent is creating a digital divide between cities, where there is fiber, and the rural areas.  The [Ghanaian] administration put in schools offline/online technologies with books, assessment tools, and open source materials. In deploying this, we are finding that again, teachers are unfamiliar with it. And existing policies prohibit students to bring their own tablets or cell phones. The easiest way to do it would have been to let everyone bring their own device. But policies are against it.” H.E. Matthew Prempeh, Minister of Education of Ghana, on the need to understand the local context.

2. Consider how the introduction of technology may affect the interactions among learners, educators, and content .

Our review of the evidence indicates that technology may accelerate student learning when it is used to scale up access to quality content, facilitate differentiated instruction, increase opportunities for practice, or when it increases learner engagement. For example, will adding electronic whiteboards to classrooms facilitate access to more quality content or differentiated instruction? Or will these expensive boards be used in the same way as the old chalkboards? Will providing one device (laptop or tablet) to each learner facilitate access to more and better content, or offer students more opportunities to practice and learn? Solely introducing technology in classrooms without additional changes is unlikely to lead to improved learning and may be quite costly. If you cannot clearly identify how the interactions among the three key components of the instructional core (educators, learners, and content) may change after the introduction of technology, then it is probably not a good idea to make the investment. See Appendix A for guidance on the types of questions to ask.

3. Once decisionmakers have a clear idea of how education technology can help accelerate student learning in a specific context, it is important to define clear objectives and goals and establish ways to regularly assess progress and make course corrections in a timely manner .

For instance, is the education technology expected to ensure that learners in early grades excel in foundational skills—basic literacy and numeracy—by age 10? If so, will the technology provide quality reading and math materials, ample opportunities to practice, and engaging materials such as videos or games? Will educators be empowered to use these materials in new ways? And how will progress be measured and adjusted?

4. How this kind of reform is approached can matter immensely for its success.

It is easy to nod to issues of “implementation,” but that needs to be more than rhetorical. Keep in mind that good use of education technology requires thinking about how it will affect learners, educators, and parents. After all, giving learners digital devices will make no difference if they get broken, are stolen, or go unused. Classroom technologies only matter if educators feel comfortable putting them to work. Since good technology is generally about complementing or amplifying what educators and learners already do, it is almost always a mistake to mandate programs from on high. It is vital that technology be adopted with the input of educators and families and with attention to how it will be used. If technology goes unused or if educators use it ineffectually, the results will disappoint—no matter the virtuosity of the technology. Indeed, unused education technology can be an unnecessary expenditure for cash-strapped education systems. This is why surveying context, listening to voices in the field, examining how technology is used, and planning for course correction is essential.

5. It is essential to communicate with a range of stakeholders, including educators, school leaders, parents, and learners .

Technology can feel alien in schools, confuse parents and (especially) older educators, or become an alluring distraction. Good communication can help address all of these risks. Taking care to listen to educators and families can help ensure that programs are informed by their needs and concerns. At the same time, deliberately and consistently explaining what technology is and is not supposed to do, how it can be most effectively used, and the ways in which it can make it more likely that programs work as intended. For instance, if teachers fear that technology is intended to reduce the need for educators, they will tend to be hostile; if they believe that it is intended to assist them in their work, they will be more receptive. Absent effective communication, it is easy for programs to “fail” not because of the technology but because of how it was used. In short, past experience in rolling out education programs indicates that it is as important to have a strong intervention design as it is to have a solid plan to socialize it among stakeholders.

disadvantages of technology in education essay

Beyond reopening: A leapfrog moment to transform education?

On September 14, the Center for Universal Education (CUE) will host a webinar to discuss strategies, including around the effective use of education technology, for ensuring resilient schools in the long term and to launch a new education technology playbook “Realizing the promise: How can education technology improve learning for all?”

file-pdf Full Playbook – Realizing the promise: How can education technology improve learning for all? file-pdf References file-pdf Appendix A – Instruments to assess availability and use of technology file-pdf Appendix B – List of reviewed studies file-pdf Appendix C – How may technology affect interactions among students, teachers, and content?

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Impacts of digital technologies on education and factors influencing schools' digital capacity and transformation: A literature review

Stella timotheou.

1 CYENS Center of Excellence & Cyprus University of Technology (Cyprus Interaction Lab), Cyprus, CYENS Center of Excellence & Cyprus University of Technology, Nicosia-Limassol, Cyprus

Ourania Miliou

Yiannis dimitriadis.

2 Universidad de Valladolid (UVA), Spain, Valladolid, Spain

Sara Villagrá Sobrino

Nikoleta giannoutsou, romina cachia.

3 JRC - Joint Research Centre of the European Commission, Seville, Spain

Alejandra Martínez Monés

Andri ioannou, associated data.

Data sharing not applicable to this article as no datasets were generated or analysed during the current study.

Digital technologies have brought changes to the nature and scope of education and led education systems worldwide to adopt strategies and policies for ICT integration. The latter brought about issues regarding the quality of teaching and learning with ICTs, especially concerning the understanding, adaptation, and design of the education systems in accordance with current technological trends. These issues were emphasized during the recent COVID-19 pandemic that accelerated the use of digital technologies in education, generating questions regarding digitalization in schools. Specifically, many schools demonstrated a lack of experience and low digital capacity, which resulted in widening gaps, inequalities, and learning losses. Such results have engendered the need for schools to learn and build upon the experience to enhance their digital capacity and preparedness, increase their digitalization levels, and achieve a successful digital transformation. Given that the integration of digital technologies is a complex and continuous process that impacts different actors within the school ecosystem, there is a need to show how these impacts are interconnected and identify the factors that can encourage an effective and efficient change in the school environments. For this purpose, we conducted a non-systematic literature review. The results of the literature review were organized thematically based on the evidence presented about the impact of digital technology on education and the factors that affect the schools’ digital capacity and digital transformation. The findings suggest that ICT integration in schools impacts more than just students’ performance; it affects several other school-related aspects and stakeholders, too. Furthermore, various factors affect the impact of digital technologies on education. These factors are interconnected and play a vital role in the digital transformation process. The study results shed light on how ICTs can positively contribute to the digital transformation of schools and which factors should be considered for schools to achieve effective and efficient change.

Introduction

Digital technologies have brought changes to the nature and scope of education. Versatile and disruptive technological innovations, such as smart devices, the Internet of Things (IoT), artificial intelligence (AI), augmented reality (AR) and virtual reality (VR), blockchain, and software applications have opened up new opportunities for advancing teaching and learning (Gaol & Prasolova-Førland, 2021 ; OECD, 2021 ). Hence, in recent years, education systems worldwide have increased their investment in the integration of information and communication technology (ICT) (Fernández-Gutiérrez et al., 2020 ; Lawrence & Tar, 2018 ) and prioritized their educational agendas to adapt strategies or policies around ICT integration (European Commission, 2019 ). The latter brought about issues regarding the quality of teaching and learning with ICTs (Bates, 2015 ), especially concerning the understanding, adaptation, and design of education systems in accordance with current technological trends (Balyer & Öz, 2018 ). Studies have shown that despite the investment made in the integration of technology in schools, the results have not been promising, and the intended outcomes have not yet been achieved (Delgado et al., 2015 ; Lawrence & Tar, 2018 ). These issues were exacerbated during the COVID-19 pandemic, which forced teaching across education levels to move online (Daniel, 2020 ). Online teaching accelerated the use of digital technologies generating questions regarding the process, the nature, the extent, and the effectiveness of digitalization in schools (Cachia et al., 2021 ; König et al., 2020 ). Specifically, many schools demonstrated a lack of experience and low digital capacity, which resulted in widening gaps, inequalities, and learning losses (Blaskó et al., 2021 ; Di Pietro et al, 2020 ). Such results have engendered the need for schools to learn and build upon the experience in order to enhance their digital capacity (European Commission, 2020 ) and increase their digitalization levels (Costa et al., 2021 ). Digitalization offers possibilities for fundamental improvement in schools (OECD, 2021 ; Rott & Marouane, 2018 ) and touches many aspects of a school’s development (Delcker & Ifenthaler, 2021 ) . However, it is a complex process that requires large-scale transformative changes beyond the technical aspects of technology and infrastructure (Pettersson, 2021 ). Namely, digitalization refers to “ a series of deep and coordinated culture, workforce, and technology shifts and operating models ” (Brooks & McCormack, 2020 , p. 3) that brings cultural, organizational, and operational change through the integration of digital technologies (JISC, 2020 ). A successful digital transformation requires that schools increase their digital capacity levels, establishing the necessary “ culture, policies, infrastructure as well as digital competence of students and staff to support the effective integration of technology in teaching and learning practices ” (Costa et al, 2021 , p.163).

Given that the integration of digital technologies is a complex and continuous process that impacts different actors within the school ecosystem (Eng, 2005 ), there is a need to show how the different elements of the impact are interconnected and to identify the factors that can encourage an effective and efficient change in the school environment. To address the issues outlined above, we formulated the following research questions:

a) What is the impact of digital technologies on education?

b) Which factors might affect a school’s digital capacity and transformation?

In the present investigation, we conducted a non-systematic literature review of publications pertaining to the impact of digital technologies on education and the factors that affect a school’s digital capacity and transformation. The results of the literature review were organized thematically based on the evidence presented about the impact of digital technology on education and the factors which affect the schools’ digital capacity and digital transformation.

Methodology

The non-systematic literature review presented herein covers the main theories and research published over the past 17 years on the topic. It is based on meta-analyses and review papers found in scholarly, peer-reviewed content databases and other key studies and reports related to the concepts studied (e.g., digitalization, digital capacity) from professional and international bodies (e.g., the OECD). We searched the Scopus database, which indexes various online journals in the education sector with an international scope, to collect peer-reviewed academic papers. Furthermore, we used an all-inclusive Google Scholar search to include relevant key terms or to include studies found in the reference list of the peer-reviewed papers, and other key studies and reports related to the concepts studied by professional and international bodies. Lastly, we gathered sources from the Publications Office of the European Union ( https://op.europa.eu/en/home ); namely, documents that refer to policies related to digital transformation in education.

Regarding search terms, we first searched resources on the impact of digital technologies on education by performing the following search queries: “impact” OR “effects” AND “digital technologies” AND “education”, “impact” OR “effects” AND “ICT” AND “education”. We further refined our results by adding the terms “meta-analysis” and “review” or by adjusting the search options based on the features of each database to avoid collecting individual studies that would provide limited contributions to a particular domain. We relied on meta-analyses and review studies as these consider the findings of multiple studies to offer a more comprehensive view of the research in a given area (Schuele & Justice, 2006 ). Specifically, meta-analysis studies provided quantitative evidence based on statistically verifiable results regarding the impact of educational interventions that integrate digital technologies in school classrooms (Higgins et al., 2012 ; Tolani-Brown et al., 2011 ).

However, quantitative data does not offer explanations for the challenges or difficulties experienced during ICT integration in learning and teaching (Tolani-Brown et al., 2011 ). To fill this gap, we analyzed literature reviews and gathered in-depth qualitative evidence of the benefits and implications of technology integration in schools. In the analysis presented herein, we also included policy documents and reports from professional and international bodies and governmental reports, which offered useful explanations of the key concepts of this study and provided recent evidence on digital capacity and transformation in education along with policy recommendations. The inclusion and exclusion criteria that were considered in this study are presented in Table ​ Table1 1 .

Inclusion and exclusion criteria for the selection of resources on the impact of digital technologies on education

To ensure a reliable extraction of information from each study and assist the research synthesis we selected the study characteristics of interest (impact) and constructed coding forms. First, an overview of the synthesis was provided by the principal investigator who described the processes of coding, data entry, and data management. The coders followed the same set of instructions but worked independently. To ensure a common understanding of the process between coders, a sample of ten studies was tested. The results were compared, and the discrepancies were identified and resolved. Additionally, to ensure an efficient coding process, all coders participated in group meetings to discuss additions, deletions, and modifications (Stock, 1994 ). Due to the methodological diversity of the studied documents we began to synthesize the literature review findings based on similar study designs. Specifically, most of the meta-analysis studies were grouped in one category due to the quantitative nature of the measured impact. These studies tended to refer to student achievement (Hattie et al., 2014 ). Then, we organized the themes of the qualitative studies in several impact categories. Lastly, we synthesized both review and meta-analysis data across the categories. In order to establish a collective understanding of the concept of impact, we referred to a previous impact study by Balanskat ( 2009 ) which investigated the impact of technology in primary schools. In this context, the impact had a more specific ICT-related meaning and was described as “ a significant influence or effect of ICT on the measured or perceived quality of (parts of) education ” (Balanskat, 2009 , p. 9). In the study presented herein, the main impacts are in relation to learning and learners, teaching, and teachers, as well as other key stakeholders who are directly or indirectly connected to the school unit.

The study’s results identified multiple dimensions of the impact of digital technologies on students’ knowledge, skills, and attitudes; on equality, inclusion, and social integration; on teachers’ professional and teaching practices; and on other school-related aspects and stakeholders. The data analysis indicated various factors that might affect the schools’ digital capacity and transformation, such as digital competencies, the teachers’ personal characteristics and professional development, as well as the school’s leadership and management, administration, infrastructure, etc. The impacts and factors found in the literature review are presented below.

Impacts of digital technologies on students’ knowledge, skills, attitudes, and emotions

The impact of ICT use on students’ knowledge, skills, and attitudes has been investigated early in the literature. Eng ( 2005 ) found a small positive effect between ICT use and students' learning. Specifically, the author reported that access to computer-assisted instruction (CAI) programs in simulation or tutorial modes—used to supplement rather than substitute instruction – could enhance student learning. The author reported studies showing that teachers acknowledged the benefits of ICT on pupils with special educational needs; however, the impact of ICT on students' attainment was unclear. Balanskat et al. ( 2006 ) found a statistically significant positive association between ICT use and higher student achievement in primary and secondary education. The authors also reported improvements in the performance of low-achieving pupils. The use of ICT resulted in further positive gains for students, namely increased attention, engagement, motivation, communication and process skills, teamwork, and gains related to their behaviour towards learning. Evidence from qualitative studies showed that teachers, students, and parents recognized the positive impact of ICT on students' learning regardless of their competence level (strong/weak students). Punie et al. ( 2006 ) documented studies that showed positive results of ICT-based learning for supporting low-achieving pupils and young people with complex lives outside the education system. Liao et al. ( 2007 ) reported moderate positive effects of computer application instruction (CAI, computer simulations, and web-based learning) over traditional instruction on primary school student's achievement. Similarly, Tamim et al. ( 2011 ) reported small to moderate positive effects between the use of computer technology (CAI, ICT, simulations, computer-based instruction, digital and hypermedia) and student achievement in formal face-to-face classrooms compared to classrooms that did not use technology. Jewitt et al., ( 2011 ) found that the use of learning platforms (LPs) (virtual learning environments, management information systems, communication technologies, and information- and resource-sharing technologies) in schools allowed primary and secondary students to access a wider variety of quality learning resources, engage in independent and personalized learning, and conduct self- and peer-review; LPs also provide opportunities for teacher assessment and feedback. Similar findings were reported by Fu ( 2013 ), who documented a list of benefits and opportunities of ICT use. According to the author, the use of ICTs helps students access digital information and course content effectively and efficiently, supports student-centered and self-directed learning, as well as the development of a creative learning environment where more opportunities for critical thinking skills are offered, and promotes collaborative learning in a distance-learning environment. Higgins et al. ( 2012 ) found consistent but small positive associations between the use of technology and learning outcomes of school-age learners (5–18-year-olds) in studies linking the provision and use of technology with attainment. Additionally, Chauhan ( 2017 ) reported a medium positive effect of technology on the learning effectiveness of primary school students compared to students who followed traditional learning instruction.

The rise of mobile technologies and hardware devices instigated investigations into their impact on teaching and learning. Sung et al. ( 2016 ) reported a moderate effect on students' performance from the use of mobile devices in the classroom compared to the use of desktop computers or the non-use of mobile devices. Schmid et al. ( 2014 ) reported medium–low to low positive effects of technology integration (e.g., CAI, ICTs) in the classroom on students' achievement and attitude compared to not using technology or using technology to varying degrees. Tamim et al. ( 2015 ) found a low statistically significant effect of the use of tablets and other smart devices in educational contexts on students' achievement outcomes. The authors suggested that tablets offered additional advantages to students; namely, they reported improvements in students’ notetaking, organizational and communication skills, and creativity. Zheng et al. ( 2016 ) reported a small positive effect of one-to-one laptop programs on students’ academic achievement across subject areas. Additional reported benefits included student-centered, individualized, and project-based learning enhanced learner engagement and enthusiasm. Additionally, the authors found that students using one-to-one laptop programs tended to use technology more frequently than in non-laptop classrooms, and as a result, they developed a range of skills (e.g., information skills, media skills, technology skills, organizational skills). Haßler et al. ( 2016 ) found that most interventions that included the use of tablets across the curriculum reported positive learning outcomes. However, from 23 studies, five reported no differences, and two reported a negative effect on students' learning outcomes. Similar results were indicated by Kalati and Kim ( 2022 ) who investigated the effect of touchscreen technologies on young students’ learning. Specifically, from 53 studies, 34 advocated positive effects of touchscreen devices on children’s learning, 17 obtained mixed findings and two studies reported negative effects.

More recently, approaches that refer to the impact of gamification with the use of digital technologies on teaching and learning were also explored. A review by Pan et al. ( 2022 ) that examined the role of learning games in fostering mathematics education in K-12 settings, reported that gameplay improved students’ performance. Integration of digital games in teaching was also found as a promising pedagogical practice in STEM education that could lead to increased learning gains (Martinez et al., 2022 ; Wang et al., 2022 ). However, although Talan et al. ( 2020 ) reported a medium effect of the use of educational games (both digital and non-digital) on academic achievement, the effect of non-digital games was higher.

Over the last two years, the effects of more advanced technologies on teaching and learning were also investigated. Garzón and Acevedo ( 2019 ) found that AR applications had a medium effect on students' learning outcomes compared to traditional lectures. Similarly, Garzón et al. ( 2020 ) showed that AR had a medium impact on students' learning gains. VR applications integrated into various subjects were also found to have a moderate effect on students’ learning compared to control conditions (traditional classes, e.g., lectures, textbooks, and multimedia use, e.g., images, videos, animation, CAI) (Chen et al., 2022b ). Villena-Taranilla et al. ( 2022 ) noted the moderate effect of VR technologies on students’ learning when these were applied in STEM disciplines. In the same meta-analysis, Villena-Taranilla et al. ( 2022 ) highlighted the role of immersive VR, since its effect on students’ learning was greater (at a high level) across educational levels (K-6) compared to semi-immersive and non-immersive integrations. In another meta-analysis study, the effect size of the immersive VR was small and significantly differentiated across educational levels (Coban et al., 2022 ). The impact of AI on education was investigated by Su and Yang ( 2022 ) and Su et al. ( 2022 ), who showed that this technology significantly improved students’ understanding of AI computer science and machine learning concepts.

It is worth noting that the vast majority of studies referred to learning gains in specific subjects. Specifically, several studies examined the impact of digital technologies on students’ literacy skills and reported positive effects on language learning (Balanskat et al., 2006 ; Grgurović et al., 2013 ; Friedel et al., 2013 ; Zheng et al., 2016 ; Chen et al., 2022b ; Savva et al., 2022 ). Also, several studies documented positive effects on specific language learning areas, namely foreign language learning (Kao, 2014 ), writing (Higgins et al., 2012 ; Wen & Walters, 2022 ; Zheng et al., 2016 ), as well as reading and comprehension (Cheung & Slavin, 2011 ; Liao et al., 2007 ; Schwabe et al., 2022 ). ICTs were also found to have a positive impact on students' performance in STEM (science, technology, engineering, and mathematics) disciplines (Arztmann et al., 2022 ; Bado, 2022 ; Villena-Taranilla et al., 2022 ; Wang et al., 2022 ). Specifically, a number of studies reported positive impacts on students’ achievement in mathematics (Balanskat et al., 2006 ; Hillmayr et al., 2020 ; Li & Ma, 2010 ; Pan et al., 2022 ; Ran et al., 2022 ; Verschaffel et al., 2019 ; Zheng et al., 2016 ). Furthermore, studies documented positive effects of ICTs on science learning (Balanskat et al., 2006 ; Liao et al., 2007 ; Zheng et al., 2016 ; Hillmayr et al., 2020 ; Kalemkuş & Kalemkuş, 2022 ; Lei et al., 2022a ). Çelik ( 2022 ) also noted that computer simulations can help students understand learning concepts related to science. Furthermore, some studies documented that the use of ICTs had a positive impact on students’ achievement in other subjects, such as geography, history, music, and arts (Chauhan, 2017 ; Condie & Munro, 2007 ), and design and technology (Balanskat et al., 2006 ).

More specific positive learning gains were reported in a number of skills, e.g., problem-solving skills and pattern exploration skills (Higgins et al., 2012 ), metacognitive learning outcomes (Verschaffel et al., 2019 ), literacy skills, computational thinking skills, emotion control skills, and collaborative inquiry skills (Lu et al., 2022 ; Su & Yang, 2022 ; Su et al., 2022 ). Additionally, several investigations have reported benefits from the use of ICT on students’ creativity (Fielding & Murcia, 2022 ; Liu et al., 2022 ; Quah & Ng, 2022 ). Lastly, digital technologies were also found to be beneficial for enhancing students’ lifelong learning skills (Haleem et al., 2022 ).

Apart from gaining knowledge and skills, studies also reported improvement in motivation and interest in mathematics (Higgins et. al., 2019 ; Fadda et al., 2022 ) and increased positive achievement emotions towards several subjects during interventions using educational games (Lei et al., 2022a ). Chen et al. ( 2022a ) also reported a small but positive effect of digital health approaches in bullying and cyberbullying interventions with K-12 students, demonstrating that technology-based approaches can help reduce bullying and related consequences by providing emotional support, empowerment, and change of attitude. In their meta-review study, Su et al. ( 2022 ) also documented that AI technologies effectively strengthened students’ attitudes towards learning. In another meta-analysis, Arztmann et al. ( 2022 ) reported positive effects of digital games on motivation and behaviour towards STEM subjects.

Impacts of digital technologies on equality, inclusion and social integration

Although most of the reviewed studies focused on the impact of ICTs on students’ knowledge, skills, and attitudes, reports were also made on other aspects in the school context, such as equality, inclusion, and social integration. Condie and Munro ( 2007 ) documented research interventions investigating how ICT can support pupils with additional or special educational needs. While those interventions were relatively small scale and mostly based on qualitative data, their findings indicated that the use of ICTs enabled the development of communication, participation, and self-esteem. A recent meta-analysis (Baragash et al., 2022 ) with 119 participants with different disabilities, reported a significant overall effect size of AR on their functional skills acquisition. Koh’s meta-analysis ( 2022 ) also revealed that students with intellectual and developmental disabilities improved their competence and performance when they used digital games in the lessons.

Istenic Starcic and Bagon ( 2014 ) found that the role of ICT in inclusion and the design of pedagogical and technological interventions was not sufficiently explored in educational interventions with people with special needs; however, some benefits of ICT use were found in students’ social integration. The issue of gender and technology use was mentioned in a small number of studies. Zheng et al. ( 2016 ) reported a statistically significant positive interaction between one-to-one laptop programs and gender. Specifically, the results showed that girls and boys alike benefitted from the laptop program, but the effect on girls’ achievement was smaller than that on boys’. Along the same lines, Arztmann et al. ( 2022 ) reported no difference in the impact of game-based learning between boys and girls, arguing that boys and girls equally benefited from game-based interventions in STEM domains. However, results from a systematic review by Cussó-Calabuig et al. ( 2018 ) found limited and low-quality evidence on the effects of intensive use of computers on gender differences in computer anxiety, self-efficacy, and self-confidence. Based on their view, intensive use of computers can reduce gender differences in some areas and not in others, depending on contextual and implementation factors.

Impacts of digital technologies on teachers’ professional and teaching practices

Various research studies have explored the impact of ICT on teachers’ instructional practices and student assessment. Friedel et al. ( 2013 ) found that the use of mobile devices by students enabled teachers to successfully deliver content (e.g., mobile serious games), provide scaffolding, and facilitate synchronous collaborative learning. The integration of digital games in teaching and learning activities also gave teachers the opportunity to study and apply various pedagogical practices (Bado, 2022 ). Specifically, Bado ( 2022 ) found that teachers who implemented instructional activities in three stages (pre-game, game, and post-game) maximized students’ learning outcomes and engagement. For instance, during the pre-game stage, teachers focused on lectures and gameplay training, at the game stage teachers provided scaffolding on content, addressed technical issues, and managed the classroom activities. During the post-game stage, teachers organized activities for debriefing to ensure that the gameplay had indeed enhanced students’ learning outcomes.

Furthermore, ICT can increase efficiency in lesson planning and preparation by offering possibilities for a more collaborative approach among teachers. The sharing of curriculum plans and the analysis of students’ data led to clearer target settings and improvements in reporting to parents (Balanskat et al., 2006 ).

Additionally, the use and application of digital technologies in teaching and learning were found to enhance teachers’ digital competence. Balanskat et al. ( 2006 ) documented studies that revealed that the use of digital technologies in education had a positive effect on teachers’ basic ICT skills. The greatest impact was found on teachers with enough experience in integrating ICTs in their teaching and/or who had recently participated in development courses for the pedagogical use of technologies in teaching. Punie et al. ( 2006 ) reported that the provision of fully equipped multimedia portable computers and the development of online teacher communities had positive impacts on teachers’ confidence and competence in the use of ICTs.

Moreover, online assessment via ICTs benefits instruction. In particular, online assessments support the digitalization of students’ work and related logistics, allow teachers to gather immediate feedback and readjust to new objectives, and support the improvement of the technical quality of tests by providing more accurate results. Additionally, the capabilities of ICTs (e.g., interactive media, simulations) create new potential methods of testing specific skills, such as problem-solving and problem-processing skills, meta-cognitive skills, creativity and communication skills, and the ability to work productively in groups (Punie et al., 2006 ).

Impacts of digital technologies on other school-related aspects and stakeholders

There is evidence that the effective use of ICTs and the data transmission offered by broadband connections help improve administration (Balanskat et al., 2006 ). Specifically, ICTs have been found to provide better management systems to schools that have data gathering procedures in place. Condie and Munro ( 2007 ) reported impacts from the use of ICTs in schools in the following areas: attendance monitoring, assessment records, reporting to parents, financial management, creation of repositories for learning resources, and sharing of information amongst staff. Such data can be used strategically for self-evaluation and monitoring purposes which in turn can result in school improvements. Additionally, they reported that online access to other people with similar roles helped to reduce headteachers’ isolation by offering them opportunities to share insights into the use of ICT in learning and teaching and how it could be used to support school improvement. Furthermore, ICTs provided more efficient and successful examination management procedures, namely less time-consuming reporting processes compared to paper-based examinations and smooth communications between schools and examination authorities through electronic data exchange (Punie et al., 2006 ).

Zheng et al. ( 2016 ) reported that the use of ICTs improved home-school relationships. Additionally, Escueta et al. ( 2017 ) reported several ICT programs that had improved the flow of information from the school to parents. Particularly, they documented that the use of ICTs (learning management systems, emails, dedicated websites, mobile phones) allowed for personalized and customized information exchange between schools and parents, such as attendance records, upcoming class assignments, school events, and students’ grades, which generated positive results on students’ learning outcomes and attainment. Such information exchange between schools and families prompted parents to encourage their children to put more effort into their schoolwork.

The above findings suggest that the impact of ICT integration in schools goes beyond students’ performance in school subjects. Specifically, it affects a number of school-related aspects, such as equality and social integration, professional and teaching practices, and diverse stakeholders. In Table ​ Table2, 2 , we summarize the different impacts of digital technologies on school stakeholders based on the literature review, while in Table ​ Table3 3 we organized the tools/platforms and practices/policies addressed in the meta-analyses, literature reviews, EU reports, and international bodies included in the manuscript.

The impact of digital technologies on schools’ stakeholders based on the literature review

Tools/platforms and practices/policies addressed in the meta-analyses, literature reviews, EU reports, and international bodies included in the manuscript

Additionally, based on the results of the literature review, there are many types of digital technologies with different affordances (see, for example, studies on VR vs Immersive VR), which evolve over time (e.g. starting from CAIs in 2005 to Augmented and Virtual reality 2020). Furthermore, these technologies are linked to different pedagogies and policy initiatives, which are critical factors in the study of impact. Table ​ Table3 3 summarizes the different tools and practices that have been used to examine the impact of digital technologies on education since 2005 based on the review results.

Factors that affect the integration of digital technologies

Although the analysis of the literature review demonstrated different impacts of the use of digital technology on education, several authors highlighted the importance of various factors, besides the technology itself, that affect this impact. For example, Liao et al. ( 2007 ) suggested that future studies should carefully investigate which factors contribute to positive outcomes by clarifying the exact relationship between computer applications and learning. Additionally, Haßler et al., ( 2016 ) suggested that the neutral findings regarding the impact of tablets on students learning outcomes in some of the studies included in their review should encourage educators, school leaders, and school officials to further investigate the potential of such devices in teaching and learning. Several other researchers suggested that a number of variables play a significant role in the impact of ICTs on students’ learning that could be attributed to the school context, teaching practices and professional development, the curriculum, and learners’ characteristics (Underwood, 2009 ; Tamim et al., 2011 ; Higgins et al., 2012 ; Archer et al., 2014 ; Sung et al., 2016 ; Haßler et al., 2016 ; Chauhan, 2017 ; Lee et al., 2020 ; Tang et al., 2022 ).

Digital competencies

One of the most common challenges reported in studies that utilized digital tools in the classroom was the lack of students’ skills on how to use them. Fu ( 2013 ) found that students’ lack of technical skills is a barrier to the effective use of ICT in the classroom. Tamim et al. ( 2015 ) reported that students faced challenges when using tablets and smart mobile devices, associated with the technical issues or expertise needed for their use and the distracting nature of the devices and highlighted the need for teachers’ professional development. Higgins et al. ( 2012 ) reported that skills training about the use of digital technologies is essential for learners to fully exploit the benefits of instruction.

Delgado et al. ( 2015 ), meanwhile, reported studies that showed a strong positive association between teachers’ computer skills and students’ use of computers. Teachers’ lack of ICT skills and familiarization with technologies can become a constraint to the effective use of technology in the classroom (Balanskat et al., 2006 ; Delgado et al., 2015 ).

It is worth noting that the way teachers are introduced to ICTs affects the impact of digital technologies on education. Previous studies have shown that teachers may avoid using digital technologies due to limited digital skills (Balanskat, 2006 ), or they prefer applying “safe” technologies, namely technologies that their own teachers used and with which they are familiar (Condie & Munro, 2007 ). In this regard, the provision of digital skills training and exposure to new digital tools might encourage teachers to apply various technologies in their lessons (Condie & Munro, 2007 ). Apart from digital competence, technical support in the school setting has also been shown to affect teachers’ use of technology in their classrooms (Delgado et al., 2015 ). Ferrari et al. ( 2011 ) found that while teachers’ use of ICT is high, 75% stated that they needed more institutional support and a shift in the mindset of educational actors to achieve more innovative teaching practices. The provision of support can reduce time and effort as well as cognitive constraints, which could cause limited ICT integration in the school lessons by teachers (Escueta et al., 2017 ).

Teachers’ personal characteristics, training approaches, and professional development

Teachers’ personal characteristics and professional development affect the impact of digital technologies on education. Specifically, Cheok and Wong ( 2015 ) found that teachers’ personal characteristics (e.g., anxiety, self-efficacy) are associated with their satisfaction and engagement with technology. Bingimlas ( 2009 ) reported that lack of confidence, resistance to change, and negative attitudes in using new technologies in teaching are significant determinants of teachers’ levels of engagement in ICT. The same author reported that the provision of technical support, motivation support (e.g., awards, sufficient time for planning), and training on how technologies can benefit teaching and learning can eliminate the above barriers to ICT integration. Archer et al. ( 2014 ) found that comfort levels in using technology are an important predictor of technology integration and argued that it is essential to provide teachers with appropriate training and ongoing support until they are comfortable with using ICTs in the classroom. Hillmayr et al. ( 2020 ) documented that training teachers on ICT had an important effecton students’ learning.

According to Balanskat et al. ( 2006 ), the impact of ICTs on students’ learning is highly dependent on the teachers’ capacity to efficiently exploit their application for pedagogical purposes. Results obtained from the Teaching and Learning International Survey (TALIS) (OECD, 2021 ) revealed that although schools are open to innovative practices and have the capacity to adopt them, only 39% of teachers in the European Union reported that they are well or very well prepared to use digital technologies for teaching. Li and Ma ( 2010 ) and Hardman ( 2019 ) showed that the positive effect of technology on students’ achievement depends on the pedagogical practices used by teachers. Schmid et al. ( 2014 ) reported that learning was best supported when students were engaged in active, meaningful activities with the use of technological tools that provided cognitive support. Tamim et al. ( 2015 ) compared two different pedagogical uses of tablets and found a significant moderate effect when the devices were used in a student-centered context and approach rather than within teacher-led environments. Similarly, Garzón and Acevedo ( 2019 ) and Garzón et al. ( 2020 ) reported that the positive results from the integration of AR applications could be attributed to the existence of different variables which could influence AR interventions (e.g., pedagogical approach, learning environment, and duration of the intervention). Additionally, Garzón et al. ( 2020 ) suggested that the pedagogical resources that teachers used to complement their lectures and the pedagogical approaches they applied were crucial to the effective integration of AR on students’ learning gains. Garzón and Acevedo ( 2019 ) also emphasized that the success of a technology-enhanced intervention is based on both the technology per se and its characteristics and on the pedagogical strategies teachers choose to implement. For instance, their results indicated that the collaborative learning approach had the highest impact on students’ learning gains among other approaches (e.g., inquiry-based learning, situated learning, or project-based learning). Ran et al. ( 2022 ) also found that the use of technology to design collaborative and communicative environments showed the largest moderator effects among the other approaches.

Hattie ( 2008 ) reported that the effective use of computers is associated with training teachers in using computers as a teaching and learning tool. Zheng et al. ( 2016 ) noted that in addition to the strategies teachers adopt in teaching, ongoing professional development is also vital in ensuring the success of technology implementation programs. Sung et al. ( 2016 ) found that research on the use of mobile devices to support learning tends to report that the insufficient preparation of teachers is a major obstacle in implementing effective mobile learning programs in schools. Friedel et al. ( 2013 ) found that providing training and support to teachers increased the positive impact of the interventions on students’ learning gains. Trucano ( 2005 ) argued that positive impacts occur when digital technologies are used to enhance teachers’ existing pedagogical philosophies. Higgins et al. ( 2012 ) found that the types of technologies used and how they are used could also affect students’ learning. The authors suggested that training and professional development of teachers that focuses on the effective pedagogical use of technology to support teaching and learning is an important component of successful instructional approaches (Higgins et al., 2012 ). Archer et al. ( 2014 ) found that studies that reported ICT interventions during which teachers received training and support had moderate positive effects on students’ learning outcomes, which were significantly higher than studies where little or no detail about training and support was mentioned. Fu ( 2013 ) reported that the lack of teachers’ knowledge and skills on the technical and instructional aspects of ICT use in the classroom, in-service training, pedagogy support, technical and financial support, as well as the lack of teachers’ motivation and encouragement to integrate ICT on their teaching were significant barriers to the integration of ICT in education.

School leadership and management

Management and leadership are important cornerstones in the digital transformation process (Pihir et al., 2018 ). Zheng et al. ( 2016 ) documented leadership among the factors positively affecting the successful implementation of technology integration in schools. Strong leadership, strategic planning, and systematic integration of digital technologies are prerequisites for the digital transformation of education systems (Ređep, 2021 ). Management and leadership play a significant role in formulating policies that are translated into practice and ensure that developments in ICT become embedded into the life of the school and in the experiences of staff and pupils (Condie & Munro, 2007 ). Policy support and leadership must include the provision of an overall vision for the use of digital technologies in education, guidance for students and parents, logistical support, as well as teacher training (Conrads et al., 2017 ). Unless there is a commitment throughout the school, with accountability for progress at key points, it is unlikely for ICT integration to be sustained or become part of the culture (Condie & Munro, 2007 ). To achieve this, principals need to adopt and promote a whole-institution strategy and build a strong mutual support system that enables the school’s technological maturity (European Commission, 2019 ). In this context, school culture plays an essential role in shaping the mindsets and beliefs of school actors towards successful technology integration. Condie and Munro ( 2007 ) emphasized the importance of the principal’s enthusiasm and work as a source of inspiration for the school staff and the students to cultivate a culture of innovation and establish sustainable digital change. Specifically, school leaders need to create conditions in which the school staff is empowered to experiment and take risks with technology (Elkordy & Lovinelli, 2020 ).

In order for leaders to achieve the above, it is important to develop capacities for learning and leading, advocating professional learning, and creating support systems and structures (European Commission, 2019 ). Digital technology integration in education systems can be challenging and leadership needs guidance to achieve it. Such guidance can be introduced through the adoption of new methods and techniques in strategic planning for the integration of digital technologies (Ređep, 2021 ). Even though the role of leaders is vital, the relevant training offered to them has so far been inadequate. Specifically, only a third of the education systems in Europe have put in place national strategies that explicitly refer to the training of school principals (European Commission, 2019 , p. 16).

Connectivity, infrastructure, and government and other support

The effective integration of digital technologies across levels of education presupposes the development of infrastructure, the provision of digital content, and the selection of proper resources (Voogt et al., 2013 ). Particularly, a high-quality broadband connection in the school increases the quality and quantity of educational activities. There is evidence that ICT increases and formalizes cooperative planning between teachers and cooperation with managers, which in turn has a positive impact on teaching practices (Balanskat et al., 2006 ). Additionally, ICT resources, including software and hardware, increase the likelihood of teachers integrating technology into the curriculum to enhance their teaching practices (Delgado et al., 2015 ). For example, Zheng et al. ( 2016 ) found that the use of one-on-one laptop programs resulted in positive changes in teaching and learning, which would not have been accomplished without the infrastructure and technical support provided to teachers. Delgado et al. ( 2015 ) reported that limited access to technology (insufficient computers, peripherals, and software) and lack of technical support are important barriers to ICT integration. Access to infrastructure refers not only to the availability of technology in a school but also to the provision of a proper amount and the right types of technology in locations where teachers and students can use them. Effective technical support is a central element of the whole-school strategy for ICT (Underwood, 2009 ). Bingimlas ( 2009 ) reported that lack of technical support in the classroom and whole-school resources (e.g., failing to connect to the Internet, printers not printing, malfunctioning computers, and working on old computers) are significant barriers that discourage the use of ICT by teachers. Moreover, poor quality and inadequate hardware maintenance, and unsuitable educational software may discourage teachers from using ICTs (Balanskat et al., 2006 ; Bingimlas, 2009 ).

Government support can also impact the integration of ICTs in teaching. Specifically, Balanskat et al. ( 2006 ) reported that government interventions and training programs increased teachers’ enthusiasm and positive attitudes towards ICT and led to the routine use of embedded ICT.

Lastly, another important factor affecting digital transformation is the development and quality assurance of digital learning resources. Such resources can be support textbooks and related materials or resources that focus on specific subjects or parts of the curriculum. Policies on the provision of digital learning resources are essential for schools and can be achieved through various actions. For example, some countries are financing web portals that become repositories, enabling teachers to share resources or create their own. Additionally, they may offer e-learning opportunities or other services linked to digital education. In other cases, specific agencies of projects have also been set up to develop digital resources (Eurydice, 2019 ).

Administration and digital data management

The digital transformation of schools involves organizational improvements at the level of internal workflows, communication between the different stakeholders, and potential for collaboration. Vuorikari et al. ( 2020 ) presented evidence that digital technologies supported the automation of administrative practices in schools and reduced the administration’s workload. There is evidence that digital data affects the production of knowledge about schools and has the power to transform how schooling takes place. Specifically, Sellar ( 2015 ) reported that data infrastructure in education is developing due to the demand for “ information about student outcomes, teacher quality, school performance, and adult skills, associated with policy efforts to increase human capital and productivity practices ” (p. 771). In this regard, practices, such as datafication which refers to the “ translation of information about all kinds of things and processes into quantified formats” have become essential for decision-making based on accountability reports about the school’s quality. The data could be turned into deep insights about education or training incorporating ICTs. For example, measuring students’ online engagement with the learning material and drawing meaningful conclusions can allow teachers to improve their educational interventions (Vuorikari et al., 2020 ).

Students’ socioeconomic background and family support

Research show that the active engagement of parents in the school and their support for the school’s work can make a difference to their children’s attitudes towards learning and, as a result, their achievement (Hattie, 2008 ). In recent years, digital technologies have been used for more effective communication between school and family (Escueta et al., 2017 ). The European Commission ( 2020 ) presented data from a Eurostat survey regarding the use of computers by students during the pandemic. The data showed that younger pupils needed additional support and guidance from parents and the challenges were greater for families in which parents had lower levels of education and little to no digital skills.

In this regard, the socio-economic background of the learners and their socio-cultural environment also affect educational achievements (Punie et al., 2006 ). Trucano documented that the use of computers at home positively influenced students’ confidence and resulted in more frequent use at school, compared to students who had no home access (Trucano, 2005 ). In this sense, the socio-economic background affects the access to computers at home (OECD, 2015 ) which in turn influences the experience of ICT, an important factor for school achievement (Punie et al., 2006 ; Underwood, 2009 ). Furthermore, parents from different socio-economic backgrounds may have different abilities and availability to support their children in their learning process (Di Pietro et al., 2020 ).

Schools’ socioeconomic context and emergency situations

The socio-economic context of the school is closely related to a school’s digital transformation. For example, schools in disadvantaged, rural, or deprived areas are likely to lack the digital capacity and infrastructure required to adapt to the use of digital technologies during emergency periods, such as the COVID-19 pandemic (Di Pietro et al., 2020 ). Data collected from school principals confirmed that in several countries, there is a rural/urban divide in connectivity (OECD, 2015 ).

Emergency periods also affect the digitalization of schools. The COVID-19 pandemic led to the closure of schools and forced them to seek appropriate and connective ways to keep working on the curriculum (Di Pietro et al., 2020 ). The sudden large-scale shift to distance and online teaching and learning also presented challenges around quality and equity in education, such as the risk of increased inequalities in learning, digital, and social, as well as teachers facing difficulties coping with this demanding situation (European Commission, 2020 ).

Looking at the findings of the above studies, we can conclude that the impact of digital technologies on education is influenced by various actors and touches many aspects of the school ecosystem. Figure  1 summarizes the factors affecting the digital technologies’ impact on school stakeholders based on the findings from the literature review.

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Factors that affect the impact of ICTs on education

The findings revealed that the use of digital technologies in education affects a variety of actors within a school’s ecosystem. First, we observed that as technologies evolve, so does the interest of the research community to apply them to school settings. Figure  2 summarizes the trends identified in current research around the impact of digital technologies on schools’ digital capacity and transformation as found in the present study. Starting as early as 2005, when computers, simulations, and interactive boards were the most commonly applied tools in school interventions (e.g., Eng, 2005 ; Liao et al., 2007 ; Moran et al., 2008 ; Tamim et al., 2011 ), moving towards the use of learning platforms (Jewitt et al., 2011 ), then to the use of mobile devices and digital games (e.g., Tamim et al., 2015 ; Sung et al., 2016 ; Talan et al., 2020 ), as well as e-books (e.g., Savva et al., 2022 ), to the more recent advanced technologies, such as AR and VR applications (e.g., Garzón & Acevedo, 2019 ; Garzón et al., 2020 ; Kalemkuş & Kalemkuş, 2022 ), or robotics and AI (e.g., Su & Yang, 2022 ; Su et al., 2022 ). As this evolution shows, digital technologies are a concept in flux with different affordances and characteristics. Additionally, from an instructional perspective, there has been a growing interest in different modes and models of content delivery such as online, blended, and hybrid modes (e.g., Cheok & Wong, 2015 ; Kazu & Yalçin, 2022 ; Ulum, 2022 ). This is an indication that the value of technologies to support teaching and learning as well as other school-related practices is increasingly recognized by the research and school community. The impact results from the literature review indicate that ICT integration on students’ learning outcomes has effects that are small (Coban et al., 2022 ; Eng, 2005 ; Higgins et al., 2012 ; Schmid et al., 2014 ; Tamim et al., 2015 ; Zheng et al., 2016 ) to moderate (Garzón & Acevedo, 2019 ; Garzón et al., 2020 ; Liao et al., 2007 ; Sung et al., 2016 ; Talan et al., 2020 ; Wen & Walters, 2022 ). That said, a number of recent studies have reported high effect sizes (e.g., Kazu & Yalçin, 2022 ).

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Current work and trends in the study of the impact of digital technologies on schools’ digital capacity

Based on these findings, several authors have suggested that the impact of technology on education depends on several variables and not on the technology per se (Tamim et al., 2011 ; Higgins et al., 2012 ; Archer et al., 2014 ; Sung et al., 2016 ; Haßler et al., 2016 ; Chauhan, 2017 ; Lee et al., 2020 ; Lei et al., 2022a ). While the impact of ICTs on student achievement has been thoroughly investigated by researchers, other aspects related to school life that are also affected by ICTs, such as equality, inclusion, and social integration have received less attention. Further analysis of the literature review has revealed a greater investment in ICT interventions to support learning and teaching in the core subjects of literacy and STEM disciplines, especially mathematics, and science. These were the most common subjects studied in the reviewed papers often drawing on national testing results, while studies that investigated other subject areas, such as social studies, were limited (Chauhan, 2017 ; Condie & Munro, 2007 ). As such, research is still lacking impact studies that focus on the effects of ICTs on a range of curriculum subjects.

The qualitative research provided additional information about the impact of digital technologies on education, documenting positive effects and giving more details about implications, recommendations, and future research directions. Specifically, the findings regarding the role of ICTs in supporting learning highlight the importance of teachers’ instructional practice and the learning context in the use of technologies and consequently their impact on instruction (Çelik, 2022 ; Schmid et al., 2014 ; Tamim et al., 2015 ). The review also provided useful insights regarding the various factors that affect the impact of digital technologies on education. These factors are interconnected and play a vital role in the transformation process. Specifically, these factors include a) digital competencies; b) teachers’ personal characteristics and professional development; c) school leadership and management; d) connectivity, infrastructure, and government support; e) administration and data management practices; f) students’ socio-economic background and family support and g) the socioeconomic context of the school and emergency situations. It is worth noting that we observed factors that affect the integration of ICTs in education but may also be affected by it. For example, the frequent use of ICTs and the use of laptops by students for instructional purposes positively affect the development of digital competencies (Zheng et al., 2016 ) and at the same time, the digital competencies affect the use of ICTs (Fu, 2013 ; Higgins et al., 2012 ). As a result, the impact of digital technologies should be explored more as an enabler of desirable and new practices and not merely as a catalyst that improves the output of the education process i.e. namely student attainment.

Conclusions

Digital technologies offer immense potential for fundamental improvement in schools. However, investment in ICT infrastructure and professional development to improve school education are yet to provide fruitful results. Digital transformation is a complex process that requires large-scale transformative changes that presuppose digital capacity and preparedness. To achieve such changes, all actors within the school’s ecosystem need to share a common vision regarding the integration of ICTs in education and work towards achieving this goal. Our literature review, which synthesized quantitative and qualitative data from a list of meta-analyses and review studies, provided useful insights into the impact of ICTs on different school stakeholders and showed that the impact of digital technologies touches upon many different aspects of school life, which are often overlooked when the focus is on student achievement as the final output of education. Furthermore, the concept of digital technologies is a concept in flux as technologies are not only different among them calling for different uses in the educational practice but they also change through time. Additionally, we opened a forum for discussion regarding the factors that affect a school’s digital capacity and transformation. We hope that our study will inform policy, practice, and research and result in a paradigm shift towards more holistic approaches in impact and assessment studies.

Study limitations and future directions

We presented a review of the study of digital technologies' impact on education and factors influencing schools’ digital capacity and transformation. The study results were based on a non-systematic literature review grounded on the acquisition of documentation in specific databases. Future studies should investigate more databases to corroborate and enhance our results. Moreover, search queries could be enhanced with key terms that could provide additional insights about the integration of ICTs in education, such as “policies and strategies for ICT integration in education”. Also, the study drew information from meta-analyses and literature reviews to acquire evidence about the effects of ICT integration in schools. Such evidence was mostly based on the general conclusions of the studies. It is worth mentioning that, we located individual studies which showed different, such as negative or neutral results. Thus, further insights are needed about the impact of ICTs on education and the factors influencing the impact. Furthermore, the nature of the studies included in meta-analyses and reviews is different as they are based on different research methodologies and data gathering processes. For instance, in a meta-analysis, the impact among the studies investigated is measured in a particular way, depending on policy or research targets (e.g., results from national examinations, pre-/post-tests). Meanwhile, in literature reviews, qualitative studies offer additional insights and detail based on self-reports and research opinions on several different aspects and stakeholders who could affect and be affected by ICT integration. As a result, it was challenging to draw causal relationships between so many interrelating variables.

Despite the challenges mentioned above, this study envisaged examining school units as ecosystems that consist of several actors by bringing together several variables from different research epistemologies to provide an understanding of the integration of ICTs. However, the use of other tools and methodologies and models for evaluation of the impact of digital technologies on education could give more detailed data and more accurate results. For instance, self-reflection tools, like SELFIE—developed on the DigCompOrg framework- (Kampylis et al., 2015 ; Bocconi & Lightfoot, 2021 ) can help capture a school’s digital capacity and better assess the impact of ICTs on education. Furthermore, the development of a theory of change could be a good approach for documenting the impact of digital technologies on education. Specifically, theories of change are models used for the evaluation of interventions and their impact; they are developed to describe how interventions will work and give the desired outcomes (Mayne, 2015 ). Theory of change as a methodological approach has also been used by researchers to develop models for evaluation in the field of education (e.g., Aromatario et al., 2019 ; Chapman & Sammons, 2013 ; De Silva et al., 2014 ).

We also propose that future studies aim at similar investigations by applying more holistic approaches for impact assessment that can provide in-depth data about the impact of digital technologies on education. For instance, future studies could focus on different research questions about the technologies that are used during the interventions or the way the implementation takes place (e.g., What methodologies are used for documenting impact? How are experimental studies implemented? How can teachers be taken into account and trained on the technology and its functions? What are the elements of an appropriate and successful implementation? How is the whole intervention designed? On which learning theories is the technology implementation based?).

Future research could also focus on assessing the impact of digital technologies on various other subjects since there is a scarcity of research related to particular subjects, such as geography, history, arts, music, and design and technology. More research should also be done about the impact of ICTs on skills, emotions, and attitudes, and on equality, inclusion, social interaction, and special needs education. There is also a need for more research about the impact of ICTs on administration, management, digitalization, and home-school relationships. Additionally, although new forms of teaching and learning with the use of ICTs (e.g., blended, hybrid, and online learning) have initiated several investigations in mainstream classrooms, only a few studies have measured their impact on students’ learning. Additionally, our review did not document any study about the impact of flipped classrooms on K-12 education. Regarding teaching and learning approaches, it is worth noting that studies referred to STEM or STEAM did not investigate the impact of STEM/STEAM as an interdisciplinary approach to learning but only investigated the impact of ICTs on learning in each domain as a separate subject (science, technology, engineering, arts, mathematics). Hence, we propose future research to also investigate the impact of the STEM/STEAM approach on education. The impact of emerging technologies on education, such as AR, VR, robotics, and AI has also been investigated recently, but more work needs to be done.

Finally, we propose that future studies could focus on the way in which specific factors, e.g., infrastructure and government support, school leadership and management, students’ and teachers’ digital competencies, approaches teachers utilize in the teaching and learning (e.g., blended, online and hybrid learning, flipped classrooms, STEM/STEAM approach, project-based learning, inquiry-based learning), affect the impact of digital technologies on education. We hope that future studies will give detailed insights into the concept of schools’ digital transformation through further investigation of impacts and factors which influence digital capacity and transformation based on the results and the recommendations of the present study.

Acknowledgements

This project has received funding under Grant Agreement No Ref Ares (2021) 339036 7483039 as well as funding from the European Union’s Horizon 2020 Research and Innovation Program under Grant Agreement No 739578 and the Government of the Republic of Cyprus through the Deputy Ministry of Research, Innovation and Digital Policy. The UVa co-authors would like also to acknowledge funding from the European Regional Development Fund and the National Research Agency of the Spanish Ministry of Science and Innovation, under project grant PID2020-112584RB-C32.

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Disadvantages Of Technology In Education (Essay Sample)

Disadvantages of technology in education.

Technology could be defined as the use of scientific know-how for practical motives, particularly in industry. It is apparent that technological advancements are surpassing the current world. Currently, technology is claimed to be playing a central role in all facets of life. Primarily, technology has established key developments and claimed to continue. Nevertheless, a current survey shows that technology is initiating numerous problems. Notably, technology has been evidenced to have generated numerous drawbacks in the education sector. Presently, it is different from earlier times when learners relied on pen and paper.

Technology has initiated the use of more money in the education sector; the current era has enabled the use of machines like computers. This has substituted the use of papers as a result of computers high-technology structures. To maintain such machines, a lot of money is needed by the learning institutions which could perhaps be employed to purchase suitable resources. Additionally, more expenditure is used to update the outdated software. Technology has resulted to inadequate means of teaching.  It is clear that with enhancement of computerization, tutors are not equally skilled with its suitable execution. Therefore, students are merely employing technology instead of acquiring knowledge from it. It is transforming the students into incompetent learners. Hardworking spirit is no longer seen in learners. Presently, the majority of the lessons are available online via diverse websites in learner’s computers and laptops. The situation is making the students not to be attentive during the lessons and lectures. In other cases, some students have created the tendency of skipping lessons and lectures. Depending on computers is generating poor learning routines.

It is evident that technology has played a big role in the provision of wrong information. With the rapid technological advancement, the website holders desire to position websites greater in search devices; as a result, they simply focus on positions as a substitute for the content they post. Numerous websites post the mistaken information that perhaps is copied and pasted from other bases shorn of legitimacy checking. As a result,students are ill-advised by the incorrect information accessible on various websites. Technology has created various distractors for the students to concentrate on academics. Laptops, tablets, smartphones amid other devices are employed to log in to social-networking platforms. This has been the major distractor. Technology advancement has made it possible for the learning people to check often recent updates, status, and commenting on various sites. Consequently, concentration and focus on academic work with the availability of these platforms have become difficult.

Technology is substituting books with e-books. Books are the real assets in education and can never be substituted by e-books which are expensive and at times leads to eyestrain. E-books are incompatible in all devices; thus, one’s tablet or laptop ought to contain an e-book reader to access computerized books. It is evident that one’s e-book could be hacked effortlessly. Moreover, it is regrettable that without electricity e-books cannot be accessed as they rely on power-driven devices.

Technology has raised critical challenges to the tutors. It is evident that the novel discoveries that are being developed every day require the tutors to be always updated. For instance, software endures to advance, and when a tutor does not quickly learn about it, he/she is confronted by a lack of technical skills. For that reason, teachers are now supposed to be practiced with technical skills. Hiring technical experts in learning institutions to train the teachers about every update that occurs includes more expenses.It is clear that certain low-income institutions have no access to a big number of electronic devices like computers and laptops. This situation means that students in low-income institutes are left unaware of the recent technological updates and skills. This is a disadvantage to them compared to their colleagues in high or moderate-income institutions. Thus, technology necessitates a lot of money to acquire computers and update their software for students to be ever updated. In conclusion, it is clear that technology has turned to be disadvantageous in the education sector.

disadvantages of technology in education essay

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Advantages and Disadvantages of Using Technology in Education

Modern technology represents a significant milestone in human history. It enables individuals to connect with their loved ones across continents using only a phone. This advancement not only streamlines communication but also saves considerable time and money. The ability to communicate instantly is particularly crucial in emergency situations, where individuals rely on telephones and computers […] Read More Band 8+

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Disadvantages of Technology in Education Essay

If you’re going to write a personal essay on the benefits of technology in education, you should consider including technology in your essay topic. By providing some examples of the advantages of technology in education, you’ll be able to show readers that technology in education is indeed good for students. You’ll be able to show readers that technology is not only beneficial to students; but that it also makes learning fun and interesting.

The most important benefit that technology can offer to students in learning how to read, write, and spell is its convenience. Most students love to learn new things, but some don’t know where to start or even how to learn more. They might be intimidated by the idea of learning new things with technology. Technology in education allows students to keep up with their studies when it comes to reading, writing, and spelling.

Learning to write in all different forms is not as easy as it sounds, however. Students must practice the writing skills, but they must be willing to learn more. There are no shortcuts to learn to write effectively in different forms.

Learning how to spell is another skill that is difficult to master. Most students don’t realize that there is a difference between one letter and the other letters. Technology in education allows students to learn the correct spelling of words.

Technology in education allows students to get a good grasp of the alphabet, but it also helps them memorize the alphabet. This memorization process is crucial for students who want to learn the alphabet quickly and easily. Memorization is one of the major advantages of technology in education.

The use of computers in teaching students is an important benefit of technology in education. Students can study at their own pace and get all of their assignments done from the comfort of their homes. Students can also access information online whenever they need it. Technology in education is able to help students in completing their work on time and in a timely manner.

Technology can help students in studying in more ways than one. Students can get help when they need it from professionals when they need it. Technology can make school more fun and interesting, while also allowing students to learn more about a subject.

Writing personal essays on the benefits of technology in education is something that can be exciting. However, it’s also a process that requires students to think critically. and learn from their mistakes.

One of the biggest benefits of technology in education for computer science students is that they will have access to a lot of research materials. Students can look up topics on the Internet and find useful articles about technology that they can apply to their own study. They can also read textbooks that are about the topic so they know how to best explain their ideas.

Writing for personal essays on the benefits of technology in education can be exciting and fun for most students. However, it can be frustrating at times as well. It’s important for students to be able to understand how they should write their essay. so they know what questions to ask.

It’s important for students to make sure that they understand all of the advantages and disadvantages of technology. in education. There are many things that students should consider when writing their own essay.

In order to fully understand how technology in education can benefit them, computer science students should take a look at a variety of books. Some books will provide information about how to use technology in education. They will also teach students what types of computer programs they can use in class. Students can gain a good understanding of how computers affect learning and how they can use the same technology to enhance their education.

Essay writing is an important part of learning. It’s an important skill that every student should master.

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Essay on Advantage and Disadvantage of Technology

Essay on Advantage and Disadvantage of Technology

In the rapidly evolving digital age, technology has become an integral part of our daily lives. From improving communications and convenience to transforming industries, the benefits are undeniable. Here you can explore an essay on advantage and disadvantage of technology.

The unstoppable progress of technology also comes with many challenges and drawbacks that require attention. This essay delves into the complex landscape of technology, analyzes its strengths and weaknesses, and ultimately sheds light on the complex relationship we share with the digital world. 

Technology is a double-edged sword and has profoundly changed the way we live, work, and interact with the world.

On the one hand, the benefits are huge. This has enabled unprecedented efficiency, connecting people and ideas over long distances in seconds.

Essay on Advantage and Disadvantage of Technology

Access to a wealth of information has empowered individuals and fostered innovation in nearly every field. Medical miracles have lengthened our lives, improved our quality of life, and made convenience a hallmark of our daily lives.

However, the rapid advancement of technology is not without its drawbacks. Concerns about privacy, dependencies, and health issues play a big role.

The environmental impact of production and disposal strains the planet and social isolation exacerbated by shielding poses challenges to the structure of human relationships.

What is advantage and disadvantage of technology?

Finding the balance between exploiting the advantages of technology and mitigating its disadvantages remains a key challenge in our increasingly digital world. Here are some of the basic advantages and disadvantages of technology mentioned below as…

Advantages of Technology

1. Efficiency: Technology automates tasks, increases productivity, and reduces errors.

2. Connectivity: Enable instant global communication and collaboration.

3. Access to Information: Provides access to a wide range of knowledge and information resources.

4. Medical advances: leading to better health care, improved treatments, and longer lives.

5. Convenience: Simplify your daily life with time-saving devices and services.

6. Innovation: Driving progress and creating new products, services, and industries.

7. Accessibility: Helping people with disabilities live more independently.

Disadvantage of Technology

1. Privacy Concerns: Raise privacy, surveillance, and hacking issues.

2. Addiction: Excessive reliance on technology can lead to loss of necessary skills and addiction.

3. Health Issues: Promotes sedentary lifestyles, screen-related health issues, and digital eye strain.

4. Environmental Impact: This leads to electronic waste , energy consumption, and wasted resources.

5. Social isolation: Decreased face-to-face interactions can damage relationships.

6. Job Disruption: Automation may result in job transfers in some industries.

7. Security Threats: Increased risk of cyberattacks and cybercrime.

In the modern world, technology offers undeniable benefits, increasing efficiency, connectivity, and access to information. However, it also comes with downsides such as privacy concerns, addiction, and environmental impact.

Navigating the Digital Era: An Essay on the Advantage and Disadvantage of Technology

Technology is an integral part of our lives, shaping the way we work, communicate, and move around the world. It’s a tool that empowers us in amazing ways, but it also has some drawbacks.

This essay examines the strengths and weaknesses of this technology and sheds light on its complex and evolving role in our society.

Efficiency and Productivity: One of the most obvious benefits of this technology is that it greatly increases efficiency. Tasks that previously took hours or even days to complete can now be completed in a fraction of the time. Technology-driven automation has streamlined industries from manufacturing to agriculture.

Global Connectivity: Technology transcends geographic boundaries, enabling instant communication and collaboration around the world. Whether you’re chatting with a friend halfway around the world or doing business with a partner abroad, technology has made it possible.

Access to information: The Internet, also known as the information superhighway, has democratized access to knowledge. A world of information is now accessible at the click of a button, empowering individuals to learn themselves and explore new horizons.

Medical Miracles: Technology is ushering in a new era of medicine with advances in telemedicine, robotic surgery, personalized medicine, and more. These innovations have improved patient outcomes and increased human lifespan.

Convenience and comfort: From smart homes that adapt to our preferences to wearable devices that monitor our health, technology has made our lives more convenient and comfortable. It simplifies your daily tasks and saves you time and effort.

Disadvantages of Technology

Privacy Issues: The digital age has raised serious concerns about privacy. Our personal information is often collected without consent, leading to alarming breaches and potential misuse.

Addiction and Addiction: The prevalence of technology, especially smartphones and social media, is facilitating addictions that can approach addiction. The temptation of constant notifications and endless scrolling can have a negative impact on our health.

Health Risks: Prolonged screen viewing combined with a sedentary lifestyle leads to a variety of health problems such as obesity, sleep disturbance, and digital eye strain. Additionally, the blue light emitted by screens can disrupt your circadian rhythm.

Environmental Impact: The manufacture and disposal of electronic equipment causes significant environmental damage. E-waste containing hazardous substances poses a major ecological threat.

Social Impact: Paradoxically, the technologies that connect us digitally can cause social isolation in the physical world. Face-to-face interactions are declining, and the ability to form meaningful relationships can be compromised.

In summary, technology is a double-edged sword, its benefits are undeniable, revolutionizing our world and making life more comfortable. Still, its downsides, from privacy concerns to health concerns, cannot be ignored.

The challenge in the digital age is finding the balance between enjoying the benefits of technology and mitigating its drawbacks. Moving forward requires careful thought and responsible stewardship to ensure that technology continues to be a positive force in our lives.

10 Disadvantage of Technology

Here are 10 detailed disadvantages of technology, such as…

1. Privacy Concerns

Technology ushered in an era of continuous monitoring and data collection. Personal information is often stored and shared without our consent, leading to data breaches and identity theft.

2. Dependence and Addiction

Over-reliance on technology, especially smartphones and the internet, can lead to addiction. This addiction can affect productivity, mental health, and relationships.

3. Health Issues

Excessive screen time and sedentary behavior are associated with a variety of health problems, including obesity, sleep disorders, and digital eye strain. Blue light emitted from screens can also interfere with sleep patterns.

4. Environmental Impact

The manufacture and disposal of electronic equipment lead to environmental pollution. E-waste containing hazardous materials poses a major challenge to disposal and is harmful to the environment.

5. Social Isolation

Technology enables digital connectivity but reduces face-to-face interactions, which can lead to loneliness and a lack of interpersonal skills.

6. Job Displacement

Automation and artificial intelligence are replacing certain jobs, especially those with repetitive tasks. This can lead to unemployment and workers will have to acquire new skills.

READ |  What is a home automation system?

7. Security Threats

As technology advances, so do cyber threats. Hackers and cybercriminals can compromise personal and financial information, disrupt critical infrastructure, and cause significant economic and social damage.

8. Digital Divide

Technology has the potential to improve access to education and information, but digital divides exist where some people lack access to the tools and internet connectivity they need, exacerbating existing inequalities.

9. Loss of Critical Skills

Using calculators and spell checkers can lead to a decline in basic math and language skills. Additionally, GPS systems can affect your ability to navigate without digital support.

10. Ethical Dilemmas

Technological advances are raising complex ethical questions, such as the use of AI in decision-making, genetic engineering, and autonomous weapons. These dilemmas require careful scrutiny and regulation.

It is important to note that while this technology presents these drawbacks, it also offers many advantages. Weighing the pros and cons of technology is critical to continuing to integrate technology into our lives.

After completing the essay on advantage and disadvantage of technology , one thing becomes clear: technology will live on and continue to deeply shape our lives. The way forward is to realize your potential while recognizing the pitfalls.

By promoting responsible and ethical use of technology , we can ensure that the benefits of the digital age far outweigh its drawbacks. In doing so, we will ensure a future where technology truly serves as a tool for progress, innovation, and the betterment of mankind.

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Technology In Education Essay

Essay On Technology In Education- Technology makes education very easy. Technology is now very essential to maintaining society, and it will definitely have an impact on education. In today's life, technology has made study easier. Here are 100, 200 and 500 word essays on Technology In Education

Technology plays a huge part in education. The students' learning process gets simpler as technology advances. Students can easily learn the concepts thanks to technologies utilised in schools and universities, such as computer labs and high-end equipment and instruments. In today's life, technology has made study easier. Here are some sample essays on Technology In Education

Technology In Education Essay

100 Words Essay On Technology In Education

Technology makes education very easy. Technology is now essential to maintaining society, and it will definitely have an impact on education. Previously teachers didn't allow students to use technology in education. Today's everything is connected to technology including education,communication, etc. Although technology has been a part of our lives for many years, the development and use of technology in education have only lately started to take shape. One of the most crucial things we have now that can help students perform better academically is technology. As technology advances, it creates new opportunities for students to interact and learn through a variety of sources. Online classes are the best example of technology.

200 Words Essay On Technology In Education

The word "technology" is derived from the Greek word "tekhnologia," where "tekh" signifies an art, a skill, etc., and "logy" defines a subject of interest. Technology makes our tasks easy and makes life easy. Today, technology plays a significant role in our lives and offers a digital platform. The term "smart classes" is being used increasingly in schools and colleges, and these classes are the best use of technology.

Technology And Education

Technology made education easy and attractive. Students study because of technology with their mobile phones and laptops.

By using technology, online classes have started, and students love doing smart classes.

Technology keeps students updated on the world and shows the right direction to do good in education.

Through technology, students can read newspapers daily wise. Technology made education easy and attractive.

From technology, schools make their app and take attendance online, which helps the environment also by not using paper and pen.

Technology attracts children more, which helps them to choose their path.

Education should not be done with only books; students should get a chance to explore their knowledge and try something new. Technology is the best thing to explore. By using technology, students' knowledge will grow faster than before.

500 Words Essay On Technology In Education

Technology has become an integral part of education because of different apps and websites. Nowadays, if you want to clear your doubts or to know your syllabus, everything is available online. Nowadays, education is nothing without technology.

Is Technology Helpful In Education?

Yes, technology is helpful to education. Nowadays, you will see the difference in how technology has changed teaching. In older days, students read from their books, and if they faced any problem, they would ask their teachers the next day at school or for tuition.

But nowadays, students clear their doubts by using apps and websites. Due to technology, they can also ask a question or can have live interaction with their teachers personally. Education has progressed a lot.

Technology has made education easy, and today we have multiple options to clear our doubts and interact online with our teachers. Nowadays, we have easy access to the internet, and other helping apps have made education accessible and exciting.

Technology is essential for students. Parents and teachers should permit their children to use technology for their students because time has changed, and the mode of education should also be changed. Students should be given a chance to learn something new and exciting and technology makes it possible.

Different Technologies for Education

Many devices make education easier for students and clear students' doubts. Some of them are-

Laptops | One of the best tools for learning is a laptop. You can obtain information on the Internet either in written form, video form, or audio form. On several applications and websites, you can find tutors who can give you a thorough explanation. Students can acquire extensive information and have their questions answered thanks to it. You may effortlessly visit several educational portals using a laptop.

Smartphone | Smartphones are smaller versions of laptops; you can use them more easily than laptops and take them with you wherever you go. It is user-friendly due to its compact size and simple internet connection. Students can speak with their teacher about questions using a smartphone. Many students have smartphones, which they use for academic purposes. Numerous apps were available for students on mobile devices.

Kindle for Textbooks | Kindle Textbooks are a type of online book. Kindle books are available at half the price of paper books. This helps to reduce the production of paper, which allows our environment and online books to be easily stored. Kindle Textbooks are popular these days. Many students use them.

My Experience

From the 12th standard, I used a smartphone and laptop for education. Technology makes study easier. When I didn't understand something from school, I used to look for those online and try to clear all my doubts by watching topic specific videos. In my school days, I learned different crafts and drawing skills by watching videos online. I used to take help from online videos to understand many science experiments and easy tricks to solve various mathematical questions. Technology in education is perfect for the future because the use of technology in education will bring a drastic change in our education system.

Explore Career Options (By Industry)

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Bio Medical Engineer

The field of biomedical engineering opens up a universe of expert chances. An Individual in the biomedical engineering career path work in the field of engineering as well as medicine, in order to find out solutions to common problems of the two fields. The biomedical engineering job opportunities are to collaborate with doctors and researchers to develop medical systems, equipment, or devices that can solve clinical problems. Here we will be discussing jobs after biomedical engineering, how to get a job in biomedical engineering, biomedical engineering scope, and salary. 

Data Administrator

Database professionals use software to store and organise data such as financial information, and customer shipping records. Individuals who opt for a career as data administrators ensure that data is available for users and secured from unauthorised sales. DB administrators may work in various types of industries. It may involve computer systems design, service firms, insurance companies, banks and hospitals.

Ethical Hacker

A career as ethical hacker involves various challenges and provides lucrative opportunities in the digital era where every giant business and startup owns its cyberspace on the world wide web. Individuals in the ethical hacker career path try to find the vulnerabilities in the cyber system to get its authority. If he or she succeeds in it then he or she gets its illegal authority. Individuals in the ethical hacker career path then steal information or delete the file that could affect the business, functioning, or services of the organization.

Data Analyst

The invention of the database has given fresh breath to the people involved in the data analytics career path. Analysis refers to splitting up a whole into its individual components for individual analysis. Data analysis is a method through which raw data are processed and transformed into information that would be beneficial for user strategic thinking.

Data are collected and examined to respond to questions, evaluate hypotheses or contradict theories. It is a tool for analyzing, transforming, modeling, and arranging data with useful knowledge, to assist in decision-making and methods, encompassing various strategies, and is used in different fields of business, research, and social science.

Geothermal Engineer

Individuals who opt for a career as geothermal engineers are the professionals involved in the processing of geothermal energy. The responsibilities of geothermal engineers may vary depending on the workplace location. Those who work in fields design facilities to process and distribute geothermal energy. They oversee the functioning of machinery used in the field.

Remote Sensing Technician

Individuals who opt for a career as a remote sensing technician possess unique personalities. Remote sensing analysts seem to be rational human beings, they are strong, independent, persistent, sincere, realistic and resourceful. Some of them are analytical as well, which means they are intelligent, introspective and inquisitive. 

Remote sensing scientists use remote sensing technology to support scientists in fields such as community planning, flight planning or the management of natural resources. Analysing data collected from aircraft, satellites or ground-based platforms using statistical analysis software, image analysis software or Geographic Information Systems (GIS) is a significant part of their work. Do you want to learn how to become remote sensing technician? There's no need to be concerned; we've devised a simple remote sensing technician career path for you. Scroll through the pages and read.

Geotechnical engineer

The role of geotechnical engineer starts with reviewing the projects needed to define the required material properties. The work responsibilities are followed by a site investigation of rock, soil, fault distribution and bedrock properties on and below an area of interest. The investigation is aimed to improve the ground engineering design and determine their engineering properties that include how they will interact with, on or in a proposed construction. 

The role of geotechnical engineer in mining includes designing and determining the type of foundations, earthworks, and or pavement subgrades required for the intended man-made structures to be made. Geotechnical engineering jobs are involved in earthen and concrete dam construction projects, working under a range of normal and extreme loading conditions. 

Cartographer

How fascinating it is to represent the whole world on just a piece of paper or a sphere. With the help of maps, we are able to represent the real world on a much smaller scale. Individuals who opt for a career as a cartographer are those who make maps. But, cartography is not just limited to maps, it is about a mixture of art , science , and technology. As a cartographer, not only you will create maps but use various geodetic surveys and remote sensing systems to measure, analyse, and create different maps for political, cultural or educational purposes.

Budget Analyst

Budget analysis, in a nutshell, entails thoroughly analyzing the details of a financial budget. The budget analysis aims to better understand and manage revenue. Budget analysts assist in the achievement of financial targets, the preservation of profitability, and the pursuit of long-term growth for a business. Budget analysts generally have a bachelor's degree in accounting, finance, economics, or a closely related field. Knowledge of Financial Management is of prime importance in this career.

Product Manager

A Product Manager is a professional responsible for product planning and marketing. He or she manages the product throughout the Product Life Cycle, gathering and prioritising the product. A product manager job description includes defining the product vision and working closely with team members of other departments to deliver winning products.  

Investment Banker

An Investment Banking career involves the invention and generation of capital for other organizations, governments, and other entities. Individuals who opt for a career as Investment Bankers are the head of a team dedicated to raising capital by issuing bonds. Investment bankers are termed as the experts who have their fingers on the pulse of the current financial and investing climate. Students can pursue various Investment Banker courses, such as Banking and Insurance , and  Economics to opt for an Investment Banking career path.

Underwriter

An underwriter is a person who assesses and evaluates the risk of insurance in his or her field like mortgage, loan, health policy, investment, and so on and so forth. The underwriter career path does involve risks as analysing the risks means finding out if there is a way for the insurance underwriter jobs to recover the money from its clients. If the risk turns out to be too much for the company then in the future it is an underwriter who will be held accountable for it. Therefore, one must carry out his or her job with a lot of attention and diligence.

Finance Executive

Operations manager.

Individuals in the operations manager jobs are responsible for ensuring the efficiency of each department to acquire its optimal goal. They plan the use of resources and distribution of materials. The operations manager's job description includes managing budgets, negotiating contracts, and performing administrative tasks.

Bank Probationary Officer (PO)

Welding engineer.

Welding Engineer Job Description: A Welding Engineer work involves managing welding projects and supervising welding teams. He or she is responsible for reviewing welding procedures, processes and documentation. A career as Welding Engineer involves conducting failure analyses and causes on welding issues. 

Transportation Planner

A career as Transportation Planner requires technical application of science and technology in engineering, particularly the concepts, equipment and technologies involved in the production of products and services. In fields like land use, infrastructure review, ecological standards and street design, he or she considers issues of health, environment and performance. A Transportation Planner assigns resources for implementing and designing programmes. He or she is responsible for assessing needs, preparing plans and forecasts and compliance with regulations.

An expert in plumbing is aware of building regulations and safety standards and works to make sure these standards are upheld. Testing pipes for leakage using air pressure and other gauges, and also the ability to construct new pipe systems by cutting, fitting, measuring and threading pipes are some of the other more involved aspects of plumbing. Individuals in the plumber career path are self-employed or work for a small business employing less than ten people, though some might find working for larger entities or the government more desirable.

Construction Manager

Individuals who opt for a career as construction managers have a senior-level management role offered in construction firms. Responsibilities in the construction management career path are assigning tasks to workers, inspecting their work, and coordinating with other professionals including architects, subcontractors, and building services engineers.

Urban Planner

Urban Planning careers revolve around the idea of developing a plan to use the land optimally, without affecting the environment. Urban planning jobs are offered to those candidates who are skilled in making the right use of land to distribute the growing population, to create various communities. 

Urban planning careers come with the opportunity to make changes to the existing cities and towns. They identify various community needs and make short and long-term plans accordingly.

Highway Engineer

Highway Engineer Job Description:  A Highway Engineer is a civil engineer who specialises in planning and building thousands of miles of roads that support connectivity and allow transportation across the country. He or she ensures that traffic management schemes are effectively planned concerning economic sustainability and successful implementation.

Environmental Engineer

Individuals who opt for a career as an environmental engineer are construction professionals who utilise the skills and knowledge of biology, soil science, chemistry and the concept of engineering to design and develop projects that serve as solutions to various environmental problems. 

Naval Architect

A Naval Architect is a professional who designs, produces and repairs safe and sea-worthy surfaces or underwater structures. A Naval Architect stays involved in creating and designing ships, ferries, submarines and yachts with implementation of various principles such as gravity, ideal hull form, buoyancy and stability. 

Orthotist and Prosthetist

Orthotists and Prosthetists are professionals who provide aid to patients with disabilities. They fix them to artificial limbs (prosthetics) and help them to regain stability. There are times when people lose their limbs in an accident. In some other occasions, they are born without a limb or orthopaedic impairment. Orthotists and prosthetists play a crucial role in their lives with fixing them to assistive devices and provide mobility.

Veterinary Doctor

Pathologist.

A career in pathology in India is filled with several responsibilities as it is a medical branch and affects human lives. The demand for pathologists has been increasing over the past few years as people are getting more aware of different diseases. Not only that, but an increase in population and lifestyle changes have also contributed to the increase in a pathologist’s demand. The pathology careers provide an extremely huge number of opportunities and if you want to be a part of the medical field you can consider being a pathologist. If you want to know more about a career in pathology in India then continue reading this article.

Speech Therapist

Gynaecologist.

Gynaecology can be defined as the study of the female body. The job outlook for gynaecology is excellent since there is evergreen demand for one because of their responsibility of dealing with not only women’s health but also fertility and pregnancy issues. Although most women prefer to have a women obstetrician gynaecologist as their doctor, men also explore a career as a gynaecologist and there are ample amounts of male doctors in the field who are gynaecologists and aid women during delivery and childbirth. 

An oncologist is a specialised doctor responsible for providing medical care to patients diagnosed with cancer. He or she uses several therapies to control the cancer and its effect on the human body such as chemotherapy, immunotherapy, radiation therapy and biopsy. An oncologist designs a treatment plan based on a pathology report after diagnosing the type of cancer and where it is spreading inside the body.

Audiologist

The audiologist career involves audiology professionals who are responsible to treat hearing loss and proactively preventing the relevant damage. Individuals who opt for a career as an audiologist use various testing strategies with the aim to determine if someone has a normal sensitivity to sounds or not. After the identification of hearing loss, a hearing doctor is required to determine which sections of the hearing are affected, to what extent they are affected, and where the wound causing the hearing loss is found. As soon as the hearing loss is identified, the patients are provided with recommendations for interventions and rehabilitation such as hearing aids, cochlear implants, and appropriate medical referrals. While audiology is a branch of science that studies and researches hearing, balance, and related disorders.

Hospital Administrator

The hospital Administrator is in charge of organising and supervising the daily operations of medical services and facilities. This organising includes managing of organisation’s staff and its members in service, budgets, service reports, departmental reporting and taking reminders of patient care and services.

For an individual who opts for a career as an actor, the primary responsibility is to completely speak to the character he or she is playing and to persuade the crowd that the character is genuine by connecting with them and bringing them into the story. This applies to significant roles and littler parts, as all roles join to make an effective creation. Here in this article, we will discuss how to become an actor in India, actor exams, actor salary in India, and actor jobs. 

Individuals who opt for a career as acrobats create and direct original routines for themselves, in addition to developing interpretations of existing routines. The work of circus acrobats can be seen in a variety of performance settings, including circus, reality shows, sports events like the Olympics, movies and commercials. Individuals who opt for a career as acrobats must be prepared to face rejections and intermittent periods of work. The creativity of acrobats may extend to other aspects of the performance. For example, acrobats in the circus may work with gym trainers, celebrities or collaborate with other professionals to enhance such performance elements as costume and or maybe at the teaching end of the career.

Video Game Designer

Career as a video game designer is filled with excitement as well as responsibilities. A video game designer is someone who is involved in the process of creating a game from day one. He or she is responsible for fulfilling duties like designing the character of the game, the several levels involved, plot, art and similar other elements. Individuals who opt for a career as a video game designer may also write the codes for the game using different programming languages.

Depending on the video game designer job description and experience they may also have to lead a team and do the early testing of the game in order to suggest changes and find loopholes.

Radio Jockey

Radio Jockey is an exciting, promising career and a great challenge for music lovers. If you are really interested in a career as radio jockey, then it is very important for an RJ to have an automatic, fun, and friendly personality. If you want to get a job done in this field, a strong command of the language and a good voice are always good things. Apart from this, in order to be a good radio jockey, you will also listen to good radio jockeys so that you can understand their style and later make your own by practicing.

A career as radio jockey has a lot to offer to deserving candidates. If you want to know more about a career as radio jockey, and how to become a radio jockey then continue reading the article.

Choreographer

The word “choreography" actually comes from Greek words that mean “dance writing." Individuals who opt for a career as a choreographer create and direct original dances, in addition to developing interpretations of existing dances. A Choreographer dances and utilises his or her creativity in other aspects of dance performance. For example, he or she may work with the music director to select music or collaborate with other famous choreographers to enhance such performance elements as lighting, costume and set design.

Videographer

Multimedia specialist.

A multimedia specialist is a media professional who creates, audio, videos, graphic image files, computer animations for multimedia applications. He or she is responsible for planning, producing, and maintaining websites and applications. 

Social Media Manager

A career as social media manager involves implementing the company’s or brand’s marketing plan across all social media channels. Social media managers help in building or improving a brand’s or a company’s website traffic, build brand awareness, create and implement marketing and brand strategy. Social media managers are key to important social communication as well.

Copy Writer

In a career as a copywriter, one has to consult with the client and understand the brief well. A career as a copywriter has a lot to offer to deserving candidates. Several new mediums of advertising are opening therefore making it a lucrative career choice. Students can pursue various copywriter courses such as Journalism , Advertising , Marketing Management . Here, we have discussed how to become a freelance copywriter, copywriter career path, how to become a copywriter in India, and copywriting career outlook. 

Careers in journalism are filled with excitement as well as responsibilities. One cannot afford to miss out on the details. As it is the small details that provide insights into a story. Depending on those insights a journalist goes about writing a news article. A journalism career can be stressful at times but if you are someone who is passionate about it then it is the right choice for you. If you want to know more about the media field and journalist career then continue reading this article.

For publishing books, newspapers, magazines and digital material, editorial and commercial strategies are set by publishers. Individuals in publishing career paths make choices about the markets their businesses will reach and the type of content that their audience will be served. Individuals in book publisher careers collaborate with editorial staff, designers, authors, and freelance contributors who develop and manage the creation of content.

In a career as a vlogger, one generally works for himself or herself. However, once an individual has gained viewership there are several brands and companies that approach them for paid collaboration. It is one of those fields where an individual can earn well while following his or her passion. 

Ever since internet costs got reduced the viewership for these types of content has increased on a large scale. Therefore, a career as a vlogger has a lot to offer. If you want to know more about the Vlogger eligibility, roles and responsibilities then continue reading the article. 

Individuals in the editor career path is an unsung hero of the news industry who polishes the language of the news stories provided by stringers, reporters, copywriters and content writers and also news agencies. Individuals who opt for a career as an editor make it more persuasive, concise and clear for readers. In this article, we will discuss the details of the editor's career path such as how to become an editor in India, editor salary in India and editor skills and qualities.

Linguistic meaning is related to language or Linguistics which is the study of languages. A career as a linguistic meaning, a profession that is based on the scientific study of language, and it's a very broad field with many specialities. Famous linguists work in academia, researching and teaching different areas of language, such as phonetics (sounds), syntax (word order) and semantics (meaning). 

Other researchers focus on specialities like computational linguistics, which seeks to better match human and computer language capacities, or applied linguistics, which is concerned with improving language education. Still, others work as language experts for the government, advertising companies, dictionary publishers and various other private enterprises. Some might work from home as freelance linguists. Philologist, phonologist, and dialectician are some of Linguist synonym. Linguists can study French , German , Italian . 

Public Relation Executive

Travel journalist.

The career of a travel journalist is full of passion, excitement and responsibility. Journalism as a career could be challenging at times, but if you're someone who has been genuinely enthusiastic about all this, then it is the best decision for you. Travel journalism jobs are all about insightful, artfully written, informative narratives designed to cover the travel industry. Travel Journalist is someone who explores, gathers and presents information as a news article.

Quality Controller

A quality controller plays a crucial role in an organisation. He or she is responsible for performing quality checks on manufactured products. He or she identifies the defects in a product and rejects the product. 

A quality controller records detailed information about products with defects and sends it to the supervisor or plant manager to take necessary actions to improve the production process.

Production Manager

Merchandiser.

A QA Lead is in charge of the QA Team. The role of QA Lead comes with the responsibility of assessing services and products in order to determine that he or she meets the quality standards. He or she develops, implements and manages test plans. 

Metallurgical Engineer

A metallurgical engineer is a professional who studies and produces materials that bring power to our world. He or she extracts metals from ores and rocks and transforms them into alloys, high-purity metals and other materials used in developing infrastructure, transportation and healthcare equipment. 

Azure Administrator

An Azure Administrator is a professional responsible for implementing, monitoring, and maintaining Azure Solutions. He or she manages cloud infrastructure service instances and various cloud servers as well as sets up public and private cloud systems. 

AWS Solution Architect

An AWS Solution Architect is someone who specializes in developing and implementing cloud computing systems. He or she has a good understanding of the various aspects of cloud computing and can confidently deploy and manage their systems. He or she troubleshoots the issues and evaluates the risk from the third party. 

Computer Programmer

Careers in computer programming primarily refer to the systematic act of writing code and moreover include wider computer science areas. The word 'programmer' or 'coder' has entered into practice with the growing number of newly self-taught tech enthusiasts. Computer programming careers involve the use of designs created by software developers and engineers and transforming them into commands that can be implemented by computers. These commands result in regular usage of social media sites, word-processing applications and browsers.

ITSM Manager

Information security manager.

Individuals in the information security manager career path involves in overseeing and controlling all aspects of computer security. The IT security manager job description includes planning and carrying out security measures to protect the business data and information from corruption, theft, unauthorised access, and deliberate attack 

Business Intelligence Developer

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  1. Disadvantages Of Technology In Education Argumentative And Persuasive

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  1. Technology might be making education worse

    Technology might be making education worse. Listen to the essay, as read by Antero Garcia, associate professor in the Graduate School of Education. As a professor of education and a former public ...

  2. Essay on the Advantages and Disadvantages of Technology in Education

    Disadvantages of Technology in Education Insufficient Methods of Teaching. With the progression of automation, instructors are not similarly prepared with its legitimate days of yore instructive framework. Along these lines students are simply utilizing innovation as opposed to picking up learning from it. ... The Contributions of Technology in ...

  3. Is technology good or bad for learning?

    With that in mind, here are some "Dos" and "Don'ts" for using technology in learning environments: Do use technology: Don't use technology: To enhance or extend social interactions. To ...

  4. 5 Disadvantages of Technology in the Classroom (And How to ...

    Here are 5 disadvantages of technology in the classroom and how to get past them for your students. Distracting Students. Smartphones have a bad reputation in classrooms and there have been strong cases for banning them in schools. Research suggests that during class time, when smartphones 42% of the time that students spent on their ...

  5. Pros and Cons of Technology in the Classroom

    Here are the top five pros to technology in the classroom. 1. Access high-quality, current information. Modern technology is fantastic when it comes to making information available to everyone. In a classroom setting, getting the most up-to-date data helps ensure the best educational experience.

  6. Advantages and disadvantages of technology in education

    Disadvantages of technology in education. It is great to be optimistic and believe in the continuous advancement of technology, however, it is equally important to not lose sight of the negative sides of technology in education, and how it can cause long-term problems for young people. Namely, many sceptics from the domain of social sciences ...

  7. Advantages & Disadvantages of Using Technology in Education Essay

    1 hour! Using technology in education has obvious disadvantages. First, it is a well-known fact that teachers who use online assessments have no capacity to control the students' unauthorized use of online resources and content to complete their assignments. Many teachers often face this hurdle and are unable to provide competitive ...

  8. 22 Advantages and Disadvantages of Technology in Education

    Instead of being in a hands-on role, technology makes the teacher more of an observer. New tech automates the learning process while adapting to changing student needs. 7. There are privacy concerns to consider with technology in the classroom. Over 15 million people each year experience identity theft in some way.

  9. Is technology always helpful?: A critical review of the impact on

    Previous reviews. There have been several systematic reviews and meta-analyses looking at a range of educational technology (EdTech) to improve learning (e.g. Higgins, Xiao, and Katsipataki Citation 2012), including game-based learning and use of videos (e.g. Byun and Joung Citation 2018; Tokac, Novak, and Thompson Citation 2019), with some focusing on specific curriculum subjects, such as ...

  10. Realizing the promise: How can education technology improve learning

    Here are five specific and sequential guidelines for decisionmakers to realize the potential of education technology to accelerate student learning. 1. Take stock of how your current schools ...

  11. Impacts of digital technologies on education and factors influencing

    Introduction. Digital technologies have brought changes to the nature and scope of education. Versatile and disruptive technological innovations, such as smart devices, the Internet of Things (IoT), artificial intelligence (AI), augmented reality (AR) and virtual reality (VR), blockchain, and software applications have opened up new opportunities for advancing teaching and learning (Gaol ...

  12. Disadvantages Of Technology In Education (Essay Sample)

    This is a disadvantage to them compared to their colleagues in high or moderate-income institutions. Thus, technology necessitates a lot of money to acquire computers and update their software for students to be ever updated. In conclusion, it is clear that technology has turned to be disadvantageous in the education sector.

  13. Disadvantages of Technology in Education

    And the input of technology into education will cost a lot of money. Which means the school might sacrifice the teachers' salary to buy more advanced devices. In Meredith's report, Virtual Reality Learning Environment: Potentials and Challenges. He personally addressed two points.

  14. Advantages and Disadvantages of Using Technology in Education

    Discover numerous IELTS Writing Task 2 essay samples, ranging from band 4+ to 8+, written by our users on the topic: 'Advantages and Disadvantages of Using

  15. Essay on the Advantages and Disadvantages of Information Technology in

    Are Cell Phones a Boon or a Bane: Argumentative Essay The Role of the Computer in Education: An Essay Advantage and Disadvantage of Internet Essay Is the Internet Making Us Stupid: Argumentative Essay The Internet and Its Negative Impact on the Mental Health of the Younger Generation The Advantages and Disadvantages of the Internet: An Essay ...

  16. Disadvantages of Technology Essay

    Technology in Education Advantages of Technology Disadvantages of Technology. Information technology (IT) has brought major changes in the content, method of teaching and the availability of resources. Technology has provided opportunities to make education more engaging and fun so the students retain more knowledge.

  17. Disadvantages of Technology in Education

    It also helps to develop essential skills such as critical thinking, problem-solving, and digital literacy. The disadvantages of technology include increased isolation and reduced face-to-face interaction, as well as a dependence on technology that can lead to addiction and decreased physical activity.

  18. Advantages And Disadvantages Of Technology In Education Essay

    Here are some of the ways that technology has made a real impact on education: -It allows teachers to provide more differentiated instruction for their students. -It allows students to access more information at their fingertips. -It allows students to collaborate on projects with classmates. -It helps teachers monitor student progress and ...

  19. Disadvantages of Technology in Education Essay

    Technology in education is able to help students in completing their work on time and in a timely manner. Technology can help students in studying in more ways than one. Students can get help when they need it from professionals when they need it. Technology can make school more fun and interesting, while also allowing students to learn more ...

  20. Essay on Advantage and Disadvantage of Technology

    Advantages of Technology. 1. Efficiency: Technology automates tasks, increases productivity, and reduces errors. 2. Connectivity: Enable instant global communication and collaboration. 3. Access to Information: Provides access to a wide range of knowledge and information resources. 4.

  21. Essay on the Advantages and Disadvantages of Technology

    Mobile technology and cameras are playing an important role for farmers. The advantages of modern technology in our life in general: Saving time. If someone in his work save 10 minutes of time because of technology, that's an extra 10 minutes they can do something useful.

  22. Technology In Education Essay

    Here are 100, 200 and 500 word essays on Technology In Education. Technology plays a huge part in education. The students' learning process gets simpler as technology advances. Students can easily learn the concepts thanks to technologies utilised in schools and universities, such as computer labs and high-end equipment and instruments.

  23. Disadvantages Of Technology In Education Essay

    Some people said that the technology may cause many problems in the education fields for many reasons. As it was stated in occupytheory.org and other websites under the title of "Disadvantages of technology in education" Laziness in Studying Computers are done to make things easier on human so it may cause laziness on some students since ...