write an essay advanced technologies in education

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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

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

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Computer Programmer

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How advanced technologies are transforming education

Mit leaders and professors eric grimson, cynthia breazeal, and christopher capozzola discuss challenges and opportunities of ai in education.

By Duyen Nguyen

Spurred on by the rapid advancement of generative AI like ChatGPT, much of the current conversation on artificial intelligence has emphasized its threat to humanity. Yet, this technology and other recent innovations also hold promise for the future.

“Today’s technologies in education — generative AI, responsible design, and the future of learning,” was a recent event hosted on MIT campus by MIT Open Learning. As part of the MIT Tech Reunions, this session welcomed over 60 alumni and friends. Vice President for Open Learning Eric Grimson, Dean for Digital Learning Cynthia Breazeal, and Senior Associate Dean for Open Learning Christopher Capozzola discussed both the challenges and opportunities that AI presents in education. Here are some of the most important takeaways from their conversation.

Technology is reshaping residential education

With MIT faculty dedicated to innovating in the classroom, digital tools have been a mainstay of on-campus teaching. Technologies like automated grading in computer science courses enable more time for teaching staff to interact with students, while students are able to correct their learning with immediate feedback on their problem sets. Prof. Grimson pointed to some of these technologies in improving residential education even before the Covid-19 pandemic necessitated a temporary shift to remote learning.

But remote learning pivots have expanded approaches to residential education. For example, using the Zoom chat feature to ask and answer questions during lectures allows more timely opportunities for students to clarify their understanding and engage more deeply in the subject matter and with their classmates. Faculty also gain a better sense of where students need bolstering in mastering concepts. The adoption of blended learning (a mix of in-person and online learning) would make it easier for students to pursue internships and experiences abroad while still receiving an MIT education, said Breazeal, Capozzola, and Grimson.

MIT can expand its role in education globally by leveraging today’s technologies

Several of MIT Open Learning ’s initiatives bring MIT’s resources to learners worldwide. In addition to popular programs like OpenCourseWare and MITx that open up MIT’s curriculum to the globe, efforts to serve under-resourced and vulnerable communities, such as refugee and migrant populations, pave the way for more equitable access to learning and employment opportunities. The MIT Refugee Action Hub (ReACT), which was incubated within Open Learning and is now part of the MIT Abdul Latif Jameel World Education Lab (J-WEL), offers a successful example of how to combine online courses, a virtual learning community, and remote apprenticeship and independent project opportunities with on-site support hubs to address the needs of learners facing challenging circumstances.

There’s an opportunity to strengthen the education pipeline

Grimson noted that, while nearly 75% of jobs in the U.S. paying $35,000 or more require a bachelor’s degree, only one-third of Americans have completed a four-year college education. Digital learning innovations, like flexible learning modalities, can help close this gap. MIT Open Learning is exploring an agile, continuous education (ACE) model that, Prof. Breazeal explained, will give learners more pathways to advance their education at their own pace. The ACE model, which MIT ReACT adopted for its Computer and Data Science certificate program, combines online, in-person, and at-work learning modalities that provide learners with flexible, cost- and time-efficient options for advancing their education. Innovating new ways to meet different learners’ needs, like experimenting with short-form content, is part of this effort, said Prof. Capozzola.

“We know there’s a lot more talent in the world” whom innovative educational approaches could reach, Capozzola added. MIT Open Learning is exploring digital learning innovations in the space between the end of high school and the start of college or university — “pre-matriculation” — as well as collaborations with community colleges and Historically Black Colleges and Universities (HBCUs) to support more learners, particularly those whom the traditional higher education model has overlooked or shut out.

Image of Eric Grimson and a screen that shows: A plethora of offerings. OCW — course materials, some videos. MITx & MicroMasters — online versions of MIT subjects, with assessments. xPRO — professional education courses. Horizons — enterprise level digital content library. Bootcamps — in person and digital experiences. NET/ReACT — courses and apprenticeships. Open Learning Library — repository of OCW and MITx offerings.

Education is inherently human

While a future where AI can create code is on the horizon, the goal of courses like 6.0001 Introduction to Computer Science and Programming in Python is to teach students to think like computer scientists. “It’s not just about code, it’s about computational thinking,” said Grimson. ChatGPT is currently causing society to rethink what’s possible, but Breazeal noted that the promise of AI has been around for decades. Breazeal, who founded the Personal Robots Group at MIT’s Media Lab, has been researching and building socially intelligent personal robots for over a decade. Her work has led to the development of personalized AI tutors that help young learners improve their linguistic skills, improve literacy instruction, and nurture children’s curiosity and learning. “We don’t want an oracle, we want something that will help us learn,” she said, allaying fears that generative AI will displace the motivation and need to learn certain skills.

MIT is playing an important role in creating guidelines for the use of AI and other emerging technologies

Faculty from every school at the Institute are working in AI. At MIT Open Learning, the Responsible AI for Social Empowerment and Education (RAISE) initiative is advancing AI literacy for K-12 students, higher education, and the workforce through programs like Day of AI . The hands-on, team-based approach that RAISE uses to teach young learners about AI has the potential to be adapted to educational programs for learners of all ages. Breazeal explained that the recent program developed by MIT researchers to prepare U.S. Air and Space Forces personnel to understand and utilize AI technologies draws on the same teaching and learning philosophy as Day of AI curricula.

“We need humans interacting with humans,” Breazeal said, in response to an audience question about the likelihood of a future AI-only university. While the session emphasized that the challenges of AI and advanced technologies to education — and humanity — should be taken seriously, the prevailing sentiment was one of hope, not fear.

Learn more about MIT RAISE , Day of AI , and other Open Learning efforts to explore the impact of today’s technologies in education.

How advanced technologies are transforming education was originally published in MIT Open Learning on Medium, where people are continuing the conversation by highlighting and responding to this story.

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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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Artificial intelligence in education

Artificial Intelligence (AI) has the potential to address some of the biggest challenges in education today, innovate teaching and learning practices, and accelerate progress towards SDG 4. However, rapid technological developments inevitably bring multiple risks and challenges, which have so far outpaced policy debates and regulatory frameworks. UNESCO is committed to supporting Member States to harness the potential of AI technologies for achieving the Education 2030 Agenda, while ensuring that its application in educational contexts is guided by the core principles of inclusion and equity. UNESCO’s mandate calls inherently for a human-centred approach to AI . It aims to shift the conversation to include AI’s role in addressing current inequalities regarding access to knowledge, research and the diversity of cultural expressions and to ensure AI does not widen the technological divides within and between countries. The promise of “AI for all” must be that everyone can take advantage of the technological revolution under way and access its fruits, notably in terms of innovation and knowledge.

Furthermore, UNESCO has developed within the framework of the Beijing Consensus a publication aimed at fostering the readiness of education policy-makers in artificial intelligence. This publication, Artificial Intelligence and Education: Guidance for Policy-makers , will be of interest to practitioners and professionals in the policy-making and education communities. It aims to generate a shared understanding of the opportunities and challenges that AI offers for education, as well as its implications for the core competencies needed in the AI era

The UNESCO Courier, October-December 2023

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by Stefania Giannini, UNESCO Assistant Director-General for Education

International Forum on artificial intelligence and education

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Through its projects, UNESCO affirms that the deployment of AI technologies in education should be purposed to enhance human capacities and to protect human rights for effective human-machine collaboration in life, learning and work, and for sustainable development. Together with partners, international organizations, and the key values that UNESCO holds as pillars of their mandate, UNESCO hopes to strengthen their leading role in AI in education, as a global laboratory of ideas, standard setter, policy advisor and capacity builder. If you are interested in leveraging emerging technologies like AI to bolster the education sector, we look forward to partnering with you through financial, in-kind or technical advice contributions. 'We need to renew this commitment as we move towards an era in which artificial intelligence – a convergence of emerging technologies – is transforming every aspect of our lives (…),' said Ms Stefania Giannini, UNESCO Assistant Director-General for Education at the International Conference on Artificial Intelligence and Education held in Beijing in May 2019. 'We need to steer this revolution in the right direction, to improve livelihoods, to reduce inequalities and promote a fair and inclusive globalization.’'

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Information and communication technology (ICT) in education

Information and communications technology (ict) can impact student learning when teachers are digitally literate and understand how to integrate it into curriculum..

Schools use a diverse set of ICT tools to communicate, create, disseminate, store, and manage information.(6) In some contexts, ICT has also become integral to the teaching-learning interaction, through such approaches as replacing chalkboards with interactive digital whiteboards, using students’ own smartphones or other devices for learning during class time, and the “flipped classroom” model where students watch lectures at home on the computer and use classroom time for more interactive exercises.

When teachers are digitally literate and trained to use ICT, these approaches can lead to higher order thinking skills, provide creative and individualized options for students to express their understandings, and leave students better prepared to deal with ongoing technological change in society and the workplace.(18)

ICT issues planners must consider include: considering the total cost-benefit equation, supplying and maintaining the requisite infrastructure, and ensuring investments are matched with teacher support and other policies aimed at effective ICT use.(16)

Issues and Discussion

Digital culture and digital literacy: Computer technologies and other aspects of digital culture have changed the ways people live, work, play, and learn, impacting the construction and distribution of knowledge and power around the world.(14) Graduates who are less familiar with digital culture are increasingly at a disadvantage in the national and global economy. Digital literacy—the skills of searching for, discerning, and producing information, as well as the critical use of new media for full participation in society—has thus become an important consideration for curriculum frameworks.(8)

In many countries, digital literacy is being built through the incorporation of information and communication technology (ICT) into schools. Some common educational applications of ICT include:

One laptop per child: Less expensive laptops have been designed for use in school on a 1:1 basis with features like lower power consumption, a low cost operating system, and special re-programming and mesh network functions.(42) Despite efforts to reduce costs, however, providing one laptop per child may be too costly for some developing countries.(41)
Tablets: Tablets are small personal computers with a touch screen, allowing input without a keyboard or mouse. Inexpensive learning software (“apps”) can be downloaded onto tablets, making them a versatile tool for learning.(7)(25) The most effective apps develop higher order thinking skills and provide creative and individualized options for students to express their understandings.(18)
Interactive White Boards or Smart Boards : Interactive white boards allow projected computer images to be displayed, manipulated, dragged, clicked, or copied.(3) Simultaneously, handwritten notes can be taken on the board and saved for later use. Interactive white boards are associated with whole-class instruction rather than student-centred activities.(38) Student engagement is generally higher when ICT is available for student use throughout the classroom.(4)
E-readers : E-readers are electronic devices that can hold hundreds of books in digital form, and they are increasingly utilized in the delivery of reading material.(19) Students—both skilled readers and reluctant readers—have had positive responses to the use of e-readers for independent reading.(22) Features of e-readers that can contribute to positive use include their portability and long battery life, response to text, and the ability to define unknown words.(22) Additionally, many classic book titles are available for free in e-book form.
Flipped Classrooms: The flipped classroom model, involving lecture and practice at home via computer-guided instruction and interactive learning activities in class, can allow for an expanded curriculum. There is little investigation on the student learning outcomes of flipped classrooms.(5) Student perceptions about flipped classrooms are mixed, but generally positive, as they prefer the cooperative learning activities in class over lecture.(5)(35)

ICT and Teacher Professional Development: Teachers need specific professional development opportunities in order to increase their ability to use ICT for formative learning assessments, individualized instruction, accessing online resources, and for fostering student interaction and collaboration.(15) Such training in ICT should positively impact teachers’ general attitudes towards ICT in the classroom, but it should also provide specific guidance on ICT teaching and learning within each discipline. Without this support, teachers tend to use ICT for skill-based applications, limiting student academic thinking.(32) To support teachers as they change their teaching, it is also essential for education managers, supervisors, teacher educators, and decision makers to be trained in ICT use.(11)

Ensuring benefits of ICT investments: To ensure the investments made in ICT benefit students, additional conditions must be met. School policies need to provide schools with the minimum acceptable infrastructure for ICT, including stable and affordable internet connectivity and security measures such as filters and site blockers. Teacher policies need to target basic ICT literacy skills, ICT use in pedagogical settings, and discipline-specific uses. (21) Successful implementation of ICT requires integration of ICT in the curriculum. Finally, digital content needs to be developed in local languages and reflect local culture. (40) Ongoing technical, human, and organizational supports on all of these issues are needed to ensure access and effective use of ICT. (21)

Resource Constrained Contexts: The total cost of ICT ownership is considerable: training of teachers and administrators, connectivity, technical support, and software, amongst others. (42) When bringing ICT into classrooms, policies should use an incremental pathway, establishing infrastructure and bringing in sustainable and easily upgradable ICT. (16) Schools in some countries have begun allowing students to bring their own mobile technology (such as laptop, tablet, or smartphone) into class rather than providing such tools to all students—an approach called Bring Your Own Device. (1)(27)(34) However, not all families can afford devices or service plans for their children. (30) Schools must ensure all students have equitable access to ICT devices for learning.

Inclusiveness Considerations

Digital Divide: The digital divide refers to disparities of digital media and internet access both within and across countries, as well as the gap between people with and without the digital literacy and skills to utilize media and internet.(23)(26)(31) The digital divide both creates and reinforces socio-economic inequalities of the world’s poorest people. Policies need to intentionally bridge this divide to bring media, internet, and digital literacy to all students, not just those who are easiest to reach.

Minority language groups: Students whose mother tongue is different from the official language of instruction are less likely to have computers and internet connections at home than students from the majority. There is also less material available to them online in their own language, putting them at a disadvantage in comparison to their majority peers who gather information, prepare talks and papers, and communicate more using ICT. (39) Yet ICT tools can also help improve the skills of minority language students—especially in learning the official language of instruction—through features such as automatic speech recognition, the availability of authentic audio-visual materials, and chat functions. (2)(17)

Students with different styles of learning: ICT can provide diverse options for taking in and processing information, making sense of ideas, and expressing learning. Over 87% of students learn best through visual and tactile modalities, and ICT can help these students ‘experience’ the information instead of just reading and hearing it. (20)(37) Mobile devices can also offer programmes (“apps”) that provide extra support to students with special needs, with features such as simplified screens and instructions, consistent placement of menus and control features, graphics combined with text, audio feedback, ability to set pace and level of difficulty, appropriate and unambiguous feedback, and easy error correction. (24)(29)

Plans and policies

India [ PDF ]
Detroit, USA [ PDF ]
Finland [ PDF ]
Alberta Education. 2012. Bring your own device: A guide for schools . Retrieved from http://education.alberta.ca/admin/technology/research.aspx
Alsied, S.M. and Pathan, M.M. 2015. ‘The use of computer technology in EFL classroom: Advantages and implications.’ International Journal of English Language and Translation Studies . 1 (1).
BBC. N.D. ‘What is an interactive whiteboard?’ Retrieved from http://www.bbcactive.com/BBCActiveIdeasandResources/Whatisaninteractivewhiteboard.aspx
Beilefeldt, T. 2012. ‘Guidance for technology decisions from classroom observation.’ Journal of Research on Technology in Education . 44 (3).
Bishop, J.L. and Verleger, M.A. 2013. ‘The flipped classroom: A survey of the research.’ Presented at the 120th ASEE Annual Conference and Exposition. Atlanta, Georgia.
Blurton, C. 2000. New Directions of ICT-Use in Education . United National Education Science and Culture Organization (UNESCO).
Bryant, B.R., Ok, M., Kang, E.Y., Kim, M.K., Lang, R., Bryant, D.P. and Pfannestiel, K. 2015. ‘Performance of fourth-grade students with learning disabilities on multiplication facts comparing teacher-mediated and technology-mediated interventions: A preliminary investigation. Journal of Behavioral Education. 24.
Buckingham, D. 2005. Educación en medios. Alfabetización, aprendizaje y cultura contemporánea, Barcelona, Paidós.
Buckingham, D., Sefton-Green, J., and Scanlon, M. 2001. 'Selling the Digital Dream: Marketing Education Technologies to Teachers and Parents.' ICT, Pedagogy, and the Curriculum: Subject to Change . London: Routledge.
"Burk, R. 2001. 'E-book devices and the marketplace: In search of customers.' Library Hi Tech 19 (4)."
Chapman, D., and Mählck, L. (Eds). 2004. Adapting technology for school improvement: a global perspective. Paris: International Institute for Educational Planning.
Cheung, A.C.K and Slavin, R.E. 2012. ‘How features of educational technology applications affect student reading outcomes: A meta-analysis.’ Educational Research Review . 7.
Cheung, A.C.K and Slavin, R.E. 2013. ‘The effectiveness of educational technology applications for enhancing mathematics achievement in K-12 classrooms: A meta-analysis.’ Educational Research Review . 9.
Deuze, M. 2006. 'Participation Remediation Bricolage - Considering Principal Components of a Digital Culture.' The Information Society . 22 .
Dunleavy, M., Dextert, S. and Heinecke, W.F. 2007. ‘What added value does a 1:1 student to laptop ratio bring to technology-supported teaching and learning?’ Journal of Computer Assisted Learning . 23.
Enyedy, N. 2014. Personalized Instruction: New Interest, Old Rhetoric, Limited Results, and the Need for a New Direction for Computer-Mediated Learning . Boulder, CO: National Education Policy Center.
Golonka, E.M., Bowles, A.R., Frank, V.M., Richardson, D.L. and Freynik, S. 2014. ‘Technologies for foreign language learning: A review of technology types and their effectiveness.’ Computer Assisted Language Learning . 27 (1).
Goodwin, K. 2012. Use of Tablet Technology in the Classroom . Strathfield, New South Wales: NSW Curriculum and Learning Innovation Centre.
Jung, J., Chan-Olmsted, S., Park, B., and Kim, Y. 2011. 'Factors affecting e-book reader awareness, interest, and intention to use.' New Media & Society . 14 (2)
Kenney, L. 2011. ‘Elementary education, there’s an app for that. Communication technology in the elementary school classroom.’ The Elon Journal of Undergraduate Research in Communications . 2 (1).
Kopcha, T.J. 2012. ‘Teachers’ perceptions of the barriers to technology integration and practices with technology under situated professional development.’ Computers and Education . 59.
Miranda, T., Williams-Rossi, D., Johnson, K., and McKenzie, N. 2011. "Reluctant readers in middle school: Successful engagement with text using the e-reader.' International journal of applied science and technology . 1 (6).
Moyo, L. 2009. 'The digital divide: scarcity, inequality and conflict.' Digital Cultures . New York: Open University Press.
Newton, D.A. and Dell, A.G. 2011. ‘Mobile devices and students with disabilities: What do best practices tell us?’ Journal of Special Education Technology . 26 (3).
Nirvi, S. (2011). ‘Special education pupils find learning tool in iPad applications.’ Education Week . 30 .
Norris, P. 2001. Digital Divide: Civic Engagement, Information Poverty, and the Internet Worldwide . Cambridge, USA: Cambridge University Press.
Project Tomorrow. 2012. Learning in the 21st century: Mobile devices + social media = personalized learning . Washington, D.C.: Blackboard K-12.
Riasati, M.J., Allahyar, N. and Tan, K.E. 2012. ‘Technology in language education: Benefits and barriers.’ Journal of Education and Practice . 3 (5).
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Sangani, K. 2013. 'BYOD to the classroom.' Engineering & Technology . 3 (8).
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Essay on Contribution of Technology in Education for School Students

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Jan 19, 2024

Essay on Contribution of Technology in Education: In the 1920s, radio was used for the first time for educational purposes. Today, artificial intelligence and robotics have not only increased our efficiency and productivity at work but have also helped students learn from their classroom experiences.

Interactive whiteboards, digital projectors, tablets, and smart gadgets have replaced traditional ways of writing on surfaces including chalkboards, tables, and many more. In addition to providing students with rapid access to a wealth of knowledge, technology-based learning methods also link the classroom to real-world situations.

This Blog Includes:

Essay on contribution of technology in education (100 words), essay on contribution of technology in education (200 words), essay on contribution of technology in education (300+ words).

Also Read: Top Teaching Tools for Teachers to Enhance Classroom Learning

In this revolutionary era, education and technology are the two powerful tools that help students learn about personalized learning opportunities. Interactive whiteboards and projectors have replaced the traditional methods of studying in classrooms.

According to recent data, over 60 percent of schools provide digital learning with the incorporation of tablets, laptops, and other important electronic gadgets in their schools. The aim of using technology in classrooms is to accommodate multiple learning styles, encouraging the students to collaborate on their new ideas and opinions. All such diverse ranges of technologies and experiences help the students learn things from different sources, which not only increases their areas of understanding but also changes their learning abilities.

Also Read: Blended Learning Approach for Teachers

The importance of online learning methods has seen an unusual jump in the local, national, and international educational markets. The COVID-19 pandemic has acted as a catalyst that has helped to drive digital education in an unparalleled way. It is estimated that more than 50 percent of the worldwide learning industry, either schools, colleges, or universities, embraces online learning methods.

The changes in the way of learning have pushed the education industry to explore innovations as well as new learning technologies. The new methods of technology such as gamification flipped classrooms, and eTextbooks have created healthy and interactive teaching methods that help to bridge the gap caused by physical restrictions. Moreover, technology has empowered the learning opportunities and helped to reach the students in remote areas. It is the digital revolution that has helped to change traditional classrooms into specialized online classes, with an aim of lifelong learning.

In conclusion, the rise in online education after post-COVID has curbed the educational population and has limited geographical areas. Although there are still some challenges regarding the use of technology in digital education such as limitations of budget, misuse of technology and lack of awareness of the tools that can be achieved by providing good infrastructure, awareness about the use of technology and by creating awareness among the masses.

Also Read: How to Write an Essay in English?

The word technology is comprised of two Greek words, techne, and logos. Here, techne means skill and art and logos mean the remark or comment by which the inner thoughts are expressed. Combining these two words, educational technology can be defined as an instructional program that is based on experience and is designed to impart students with educational knowledge of technology.

In the past students had limited resources to explore good knowledge. The limited knowledge was either found within the four walls of schools, or in local libraries. But now, with the help of the internet, a piece of vast information is just a click away from the students. Students have the opportunity to explore different subjects, watch educational YouTube videos, and connect with related experts using social media worldwide.

Moreover, the interaction of education and technology has given rise to different online learning platforms such as Coursera, LinkedIn Learning, Skillshare, Udemy, and many more. The online learning platform has seen a rise of 50 percent in users over the last five years. One of the major reasons for a boom in online learning includes the improved means of classroom interactions, easiness of learning remotely, and discovering new things at their own pace.

Academic institutions, colleges, universities, and different online platforms use new methods of technology to make learning better for students. Educational applications or apps have become invaluable tools in the digital era that help students cover the spectrum of subjects. These applications serve different styles of learning, and languages, to provide interactive and engaging learning. For example, mathematics subjects can use enjoyment, relaxation, and effective learning interaction with the students. Here the example indicates, how technology can not only be used for fun but can also be used for learning with the involvement of needs as well as preferences at the same time.

Furthermore, the increase in the importance of digitization of educational resources such as online tests, universities, e-books, and edutainment helps unburden the heavy backpacks and also updates the students with the latest information. Using the technology not only helps lighten the physical loads but also helps with a more feasible approach towards learning.

In conclusion, we can say that technology has made learning easier and more convenient. From global interaction sessions to collaboration, technology has helped students in a revolutionary way. It is believed that in coming future the advancement of technology will not only help the students with innovations but will also come up with endless possibilities.

Read this Essay on Technology for related information.

Ans: Technology helps in unburdening our backpacks with e-books, edutainment, and online tests. Also online learning platforms such as Udemy, and Coursera help in breaking the geographical barriers.

Ans: Technology education is an instructional program that is based on experience and is designed to give students educational knowledge on technology.

Patrick Suppes and Richard Atkinson are often considered known as fathers of educational technology.

An increase in the importance of digitization of educational resources such as online tests, universities, e-books, and edutainment helps unburden the heavy backpacks and also updates the students with the latest information. Using the technology not only helps lighten the physical loads but also helps with a more feasible approach towards learning.

Ans: It is believed that in the coming future, the advancement of technology will not only help students with innovations but will also come up with endless possibilities.

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Deepika Joshi is an experienced content writer with expertise in creating educational and informative content. She has a year of experience writing content for speeches, essays, NCERT, study abroad and EdTech SaaS. Her strengths lie in conducting thorough research and ananlysis to provide accurate and up-to-date information to readers. She enjoys staying updated on new skills and knowledge, particulary in education domain. In her free time, she loves to read articles, and blogs with related to her field to further expand her expertise. In personal life, she loves creative writing and aspire to connect with innovative people who have fresh ideas to offer.

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Home Essay Samples Information Science and Technology Technology in Education

Technology in Education: An Argumentative Perspective

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Home — Essay Samples — Information Science and Technology — Technology in Education — The Importance of Technology in Education

The Importance of Technology in Education: Benefits for Students and Educators

Categories: Impact of Technology Technology in Education

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Published: May 24, 2022

Words: 1490 | Pages: 3 | 8 min read

Introduction, importance of technology in education (essay).

Himmelsbach, V. (2019). How Does Technology Impact Student Learning? Retrieved November 26, 2020, from https:tophat.combloghow-does-technology-impact-student-learningDikusar, A. (2018).
How Important is Technology in Education? Retrieved October 22, 2020, from https:xbsoftware.combloghow-important-is-technology-in-educationCox, J. (2019).
Benefits of Technology in the Classroom. Retrieved November 4, 2020, from https:www.teachhub.comtechnology-in-the-classroom201911benefits-of-technology-in-the-classroom

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Technological Advances in Education Research Paper

Introduction.

Impact of Technology on Education

Technology has had massive impact on education. The recent technological inventions and innovations have changed the approach taken by various stakeholders in this field.

The geographical barrier that existed before has been eliminated completely. In the current society, a British student can undertake his or her junior primary education in Britain, high school in Russia, and at the college level the leaner can go to the United States. The world has been reduced to a small village where learners and teachers can easily move from one location to another.

Children are experiencing new forms of teaching with the help of such gadgets as iPads and personal computers. With internet connectivity, learners can easily access important academic materials online. Teachers can also use the same internet to send notes to students. Teacher-student relationship has been enhanced. The need to have a physical classroom setting is also reducing due to advanced technology. Learning has just been made easier with the advancement in technology.

Technology has transformed various sectors of economy around the world. The world has been reduced into a small village because of the advances made in technology that has taken place around the world. People can easily move from one geographical location to another using a plane or various other means of transport.

Communication has also been made easier due to advancement in the field of information technology. Information is easily shared through the internet and other means of communication. Technology is also making various devises cheap enough for the middle class. This means that they can easily access the information available in the internet, and other means of communication.

The education sector is one of the sectors that have heavily been impacted by technological advances. There has been a massive shift in the approach taken in this field due to the advancement in technology.

According to Lakshmi (2007), technology has brought radical changes in this field that never existed before. This scholar says that technology has brought major advances in education. There is an emergent of a virtual classroom, where individuals learn miles away from classrooms. This is because of technological advances such as video conferencing.

Students have also found technology to be very resourceful in their research. A researcher in the United Stated of America can conduct a comprehensive research on a company in India right from the comfort of his class. This is made possible by the fact that all the important facts that such a researcher may need can easily be found on the internet. The emergent of social media has had massive effect on education. This research focuses on the impact of technology on education.

Technology in education has raised a lot of debate among scholars in the recent past. There are a group of scholars who strongly believe that technology has had positive impact of education. On the other hand, there are those who strongly believe that technology has had serious negative consequences on education and on the lives of learners.

According to Tettegah (2006), the proponents and opponents of technology in the field of education have had a near equal force in fronting their arguments. In this research, analysis will be done on both the positive and negative consequences of technology on education.

Positive Impacts of Technology on Education

According to Lakshmi (2007), technology has completely transformed education in various forms and in a positive way. This scholar says that education system today has embraced technology in various fronts, and the results have been marvellous. One of the biggest advantages that technology has brought in the field of education is global learning.

König (2007) says that technology has enhanced learning to the level where learners can get knowledge from any part of the world. Global learning has been enhanced by such technological improvements as video conferencing techniques. In this case, a learner may not need to move to a physical classroom. Through this technology, a teacher can disseminate knowledge from the comfort of his or her office to students who are in their homes.

The technology allows for interactivity between the teacher and the students, and among the students. This means that a teacher in United Kingdom can have a class to students in the United Arab Emirates with the aid of technology. This means that when such a teacher has several classes with similar unit, they can be joined together in one class irrespective of their location around the globe (König, 2007). As such, the issue limited number of teachers around the country will be eliminated.

Technology has enhanced a free flow of information from one corner of the world to another (Tettegah, 2006). This scholar says that with advanced technology, there has emerged a new trend of global learning where learners can share information from any part of the world with the help of the internet.

There is every kind of information one may need in the internet. Lipsitz (2008) argues that the internet has become a very strong source of knowledge in the contemporary education system. The scholar holds that learners in the current society can easily use the internet to get information on various subjects, most of which are found freely. The internet has replaced physical books that were very bulky to the students.

The internet has enabled learners to compile a lot of materials and keep them in soft copy to be retrieved at any time the learner wishes to. With a personal computer, a leaner can compile a large volume of notes and keep them in an easily retrievable manner. The personal computer will also enable the learner to summarize the notes in a way that will capture most important facts per given unit in the class. With a laptop, a student will be moving around with vast materials, compressed into simple easy to retrieve, easy to read manner.

Technology has helped enhance reading of books among the learners, while making publishing easy for the authors. Purchasing a book has been made easier and cheaper thanks to the internet. The emergent of e-books has made it extremely easy for learners to make purchase of the most important books in their courses.

A learner will easily order for the book, pay for it and receive a copy all through online means. This means that such individuals may not strain looking for physical stores where they can make purchase of the books. Once with the book, the learner will find it easy reading the book because besides being a virtual book that is not bulky, navigating this book is easier then when one handles a physical book.

To the others, publishing has been made easier. There is no longer a need to incur huge costs of publishing due to the need to produce physical books. These authors are therefore encouraged to increase their production because the cost of production and the logistics that would have followed are already eliminated. To the environmentalists, this is one of the best technologies ever to occur.

With e-books, there is an assurance that the tree will be protected from lumbers. The reduction of printed books will reduce the demand for paper, meaning that the operational activities of the paper factories will be reduced. This would mean cleaner and more conducive environment for the learners.

Researchers have found technology to be of utmost importance in their lives. According to Wright (2008), researchers have been using the internet to gather relevant information they need in their area of research. This scholar holds that a researcher in the United Arabs Emirates may not need to travel to South Africa in order to conduct an economical analysis of Coca Cola Company is performing in this country. Such a researcher will get most of the information required through online means.

If there may be need to conduct further researcher by conducting some interviews on the employees or top management of the firm, this can be made possible through phone call conversation, video-conferencing, emailing or the use of the social media to pass a communication and receive a response.

The internet has also created a forum through which researchers can meet and share some of their findings in a developmental manner. Through such social media tools as Facebook, Tweeter and LinkedIn, a researcher will easily notice another researcher who is in the same field of research.

The two or more researchers can come together and share their knowledge, and the level of their findings irrespective of their location around the globe. This can enhance development of a given field of research. In such cases, Tettegah (2006) says that the researchers can work as a unit in a manner where, if researcher in United Arab Emirates wants some facts about business environmental conditions in France, the data can be collected through a correspondent who is in France, hence this cuts off the cost of transport.

According to Wright (2008), technology has also benefited schools and their management systems. Various schools around the world have embraced technology in one way or the other to advance their systems. Most schools have their students registered in computer system where a simple click into the student’s identification number brings all the details of the students, including information about their academic performance.

Teachers can therefore easily monitor performance of each individual student. The class teacher can also share information with the parents with a lot of ease. The elimination of physical and tedious work means that teachers can get enough time to spend with students in a constructive manner.

The administrations have also found technology very important in running schools. With computerized system of managing school assets, it becomes easier to manage the education system. Technology has also helped schools administration to increase their intake of students. Technology is allowing schools to administer distance learning to students in various locations around the globe. This has increased the income of such institutions, making it possible for them to enhance learning system to suit the needs of the learners.

Technology has also enhanced the relationship that exists between all the stakeholders within the education society. Parents can easily communicate with teachers and get to know how the development of their children thanks to the developments brought about by technology. Lipsitz (2008) says that with enhanced technology, parents can easily monitor the progress of the school, their children and be able to reach out to various other stakeholders within the society to help build the system.

Negative Impacts of Technology on Education

According to Wright (2008), the praises that various people have had on the impact of technology on education are misplaced. This scholar holds that technology has brought serious negative consequences in the field of education. The sentiments of this scholar are shared among various other scholars who feel that technology has brought very little positivity in the field of education. The following are some of the negative factors that these scholars have highlighted in their opposition to technology.

Tettegah (2006) says that with emergent of technology, learners have completely forgotten about books. Students rarely use books in the current society.

This scholar says that technology has massively distracted learners from books. Right from lower classes to the universities, learners rarely take time to read books unless there is an urgent exam and there is need to avoid failure in the exams. Learners take most of their times watching movies or playing games using the same computers which they are supposed to use to do further research.

Wright (2008) observes that it is currently a common phenomenon to see books in the library gathering dust because of lack of handling for various weeks. The urge to dig deep into the books in order to gather information that would advance knowledge of a learner has been replaced by the desire to watch new movies or play new games using the computers.

The little time the learners have left is used to watch movies in the television or listen to music using the iPod. Reading books is almost becoming an archaic practice among learners at various levels. Reading is specifically meant for the exams and not personal development. For that matter, cramming of the notes is considered more preferable among these students.

Technology has allowed learners, access to materials that are mind-corrupting. It is common to find a young student aged 12 years with an iPad. With such a gadget, such a young learner will be exposed to all the information and content of the internet, some of which are beyond his understanding.

Tettegah (2006) says that with access to the internet, some minors may come across sites with adult contents. Because there is no clear way through which such sites can determine the age of the viewer, such youngsters are allowed into sites with materials beyond their level of consumption. Such content would always end up corrupting the mind of the viewer.

This may be manifested in their actions or words. Such a learner will not only be wasting precious time that should be meant for learning, but will also get morally washed-off because of the contents of what they view. Some of the movies that learners watch are violent in nature. Because of the delicacy of this stage in the development of a person, such individuals come to internalize the fact that being violent is cool.

Actions of violence may not only land such learners in jail and interfere with their learning, but may also affect other academics negatively. According to Reed (2010), young learners in the current society get glued on televisions for very long time watching movies that are morally wanting. This scholar warns that this habit is becoming more popular among the youths who are expected to take most of their tome learning.

Tan (2012) talks of the social media as the main destructor of learning process. The emergence of social media has acted as a big distracter to young learners in the current society. Facebook has about one billion followers, majority being the youth in learning institutions. They spend most of their time on the Facebook discussing things that are not related to their academic lives.

This leaves them with limited time to spend on books. As a result of this, they are not in a position to prosper in their education. Tweeter has the same effect as Facebook. The impact of YouTube has even been greater. Given the fact that YouTube can support heavy graphics such as videos, these young learners of today spend most of their time on YouTube either listening to music or watching videos at the expense of learning.

According to Lipsitz (2008), learning is a very difficult process that when faced with a very little distracter, will yield very dismal results. Learners must be made to realize that their academic performance is not secondary to their entertainment. As such, they should not give it a second place to their entertainment. However, given the fact that the learning process is very challenging, they easily get swayed when they get such entertaining means as YouTube.

Technology has replaced the normal way of life of learners in the current society, but in a negative way. According to König (2007), technology has completely changed the recreational trend among learners. Initially, children appreciated the importance of outdoor games.

After school and when on holidays, learners would take their time to play various games with their peers. These games would range from football games, baseball, volleyball, skiing, swimming, athletics, tennis among others. These games are very important to the mental and physical development of children.

When they run, kick and stretch their arms, they get to exercise their muscles. This would stimulate their entire body system and give them a refreshing feeling when they embark on books. Their minds are strong enough after such rigorous activities. The blood circulation in their body gets steady and they generally feel stronger. This also eliminates incidences of simple diseases that would attack them because of lack of proper exercise. Such complications as heart problems, weak bones or mental distress will be eliminated.

This will go a long way in eliminating time wasted due to the need to stay on bed under medication due to such complications. Outdoor games also enhance socialization. When these learners go out to play, they meet their peers and this helps in their mental development. This would enhance their learning capacity when they are back in school because they get to appreciate the importance of teamwork. They get to apply such skills in school and as Means (2009) says, this would result in brilliant performance in their academics.

These positive virtues of outdoor learning have been replaced by technology enhanced indoor games. Learners do not have time to engage in outdoor games because they can play right inside the bedroom. This means that they get affected by all the negative consequences of not being able to engage in outdoor games. Innocert (2012) says that doctors and other medical experts have lamented the effect that lack of outdoor games has on learners.

It is a fact that technology has brought about massive improvement in the field of education. With advanced technology, learners are able to access various learning materials through the internet. They are able to share information with their fellow learners because of improved accessibility. Learner-learner and learner-teacher relationship has greatly improved. A learner can easily access the teacher through various means, and using various technological tools.

Researchers have found the internet very vital in their process of research. These are some of the positive impacts that technology has had on education. However, it is worth noting that despite these positive changes, there have been numerous negative effects that technology has had on education (Gura & Percy, 2005). Learners in the modern society do take most of their time entertaining themselves other than learning.

They enjoy watching movies instead of reading books. Some of the contents they get in the internet get to corrupt their mind, making them engage in activities that are not healthy to their wellbeing and to their peers. Indoor games have detrimental effects on their physical and mental health. It would therefore be prudent to conclude that although technology is necessary in this field, measures should be taken to counter its negative effects.

Gura, M., & Percy, B. (2005). Recapturing technology for education: Keeping tomorrow in today’s classrooms . Lanham: Scarecrow Education.

Innocert, M. (2012). Advanced information technology in education . Berlin: Springer.

König, M. E. (2007). Technology in education: An essay about pros, cons and challenges . München: GRIN Verlag GmbH.

Lakshmi, N. M. (2007). Information communication technology and education . New Delhi: Discovery Publishing House.

Lipsitz, L. (2008). Technology and education: Articles from Educational technology magazine . Englewood Cliffs: Educational Technology Publications.

Means, B. (2009). Technology and education reform: Studies of education reform . Upland: Diane Pub.

Reed, R. H. (2010). The impact of tablet PCs and pen-based technology on education: Going mainstream, 2010 . West Lafayette: Purdue University Press.

Tan, H. (2012). Technology for education and learning . Berlin: Springer.

Tettegah, S. (2006). Technology and education: Issues in administration, policy, and applications in K12 schools . Amsterdam: Elsevier JAI.

Wright, C. (2008). Issues in education and technology: Policy guidelines and strategies . London: Commonwealth Secretariat.

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10 Important Roles Of Technology In Education

Post Author: edmonger
Post published: July 28, 2021
Post Category: Ed Tech Solutions / Trends and Insights
Post Comments: 3 Comments

We can’t deny the fact that the developed world we see today can never be possible without the evaluation of technology. Even the International Society for Technology in Education (ISTE) promotes the Important roles of technology in education. Only through a technology driven education system, students have innovative learning solutions.

In this pandemic era of Covid-19, it would have never been possible for teachers to make students efficient learners at home if technology was not introduced. In addition, technology allows students to learn more effectively via online educational tools.

What is the Importance of Technology in Education?

The vital roles of technology in education is that teachers can serve all study material so that students can better understand the topics and solve the problem easier via Edtech. Educational technology approaches modern classroom / Smart classes, which primarily focus on improvising the performance of every student.

To understand the Importance of Technology in Education and how a new generation impacts the change in the whole education scenario, one must go through this article beneath the last section.

Why Technology Is Important In Education?

The important roles of technology in education lead to improve quality of studying; better communication facilitates skills and knowledge to students. Apart from that, with E-learning technology tools, students can access study material from any geographical area, wherever they go.

In spite of having various higher technology driven Education tools, schools are still using the pen/ pencil-and-paper methods for learning. However, via EdTech, the whole education structure has been revolutionized, enriching the learning process at just one fingertip of students.

Imperative Roles of Technology in Education

Here we have created this article to make you aware of the Important roles of technology in education for students as well as parents and teachers, have a glance –

Promotes Effective Educational system

Undoubtedly, since technology is introduced in the classroom, it encourages the overall growth of students. Technology is a robust process to promote a healthy educational system worldwide. The Most Important roles of technology in education makes learning more accessible, exciting and enjoyable. The development of technological advancements in education leads to enhance knowledge and skills of students.

Technology Helps Students Learn Much And Better

Any of us still wondering that how important is technology in Education? Thus, let me inform you that a survey has proved that digital learning technology helps most students improve their grades. Furthermore, through technology-based E-learning, students can learn more and better from different resources without depending on an institution or an instructor.

The most important thing is that technology helps learners more easily in their field. Such as, Students can convert or type text in handwritten style with an online text to handwriting converter tool.This tool allows them to share their educational notes in handwriting style. Which makes it more appealing and eye-catching and also plays an important role in the modern age.

Improvise better Communication and Collaboration

We all know that the existence of technology has improved communication and collaboration to a better level. Likewise, Educational technology also boosted communication and collaboration between teachers and students and students/ parents, teachers/parents, and peers.

Teachers can interact with students to clear their doubts and make e-learning more effective. Technology enables one-on-one interaction in the classroom online.

Provide Teachers More Resources

Educational technology provides teachers plenty of e-learning tools like Gamification, AR / VR, smartboards etc. Through Advanced modern technology of education, teachers can use various digital tools to magnify learning opportunities for students.

E-learning solution technologies enable teachers to improve their teaching skills. From technology, teachers can instruct well through video lessons, microlearning, attractive infographics etc. Moreover, teachers can engage the students by delivering online tests and different courses.

Learning At Own Pace

The important roles of technology in education is to students as they can learn at any time and from anywhere. With the technology-based E-learning process, one can study in their comfort zone. Students can play, pause and re-watch complex topics using online educational applications until the concept is clear.

Also Check – Importance of Online Teaching

More Opportunities For Online Project-Based Learning

Most schools are opting now for online Project-Based Learning instead of wasting time on pen paper-based projects. Edtech solutions have also made Project-Based learning much more accessible and convenient for students. Now, one can create presentations using Google Classroom, Google Docs, PPT and Slides, etc. Through online Project-Based Learning, students use their skills and knowledge up to the next level to complete an assignment.

Personalized Learning Opportunities

The importance Of Technology in Education is not just limited to efficient learning, but students can also have their personalized learning opportunities. Availability of more resources/ material 24*7 to students allows them to personalize learning better. We all know that not all students have the same learning frequency; thus, personalized learning is considered. Personalize learning is also known as self-paced learning, which can help individuals optimize the quantity of material according to their capability.

Efficient Problem Solving Stuff

Well, studying without having any doubts can be possible only through modern intelligent classes. Video modules of every concept help each of you to cut out the doubts. So, If any problem arises in any topic, just go through Problem Solving material and clear all doubts.

Better Understanding through Graphics

Technology has evaluated the learning process through video graphics, which helps the human mind understand the concept faster and remember it for a long time. This can be only possible because of the visual information system. Using VR technology in education, students can retain knowledge by 25% to 60%. Using VR educational technology like gamification, mobile learning, microlearning, visual graphics etc. students can experience fun and learning at the same time and keep engaged with their studies.

Save Time And Money

With the availability of more study material via E-learning technology, the student can spend less money on other materials. Even nowadays, many schools are more focusing on buying online study material, which is cheaper and convenient for storage. Teachers can save time and money by teaching students via advanced educational, technological systems like augmented reality and virtual reality programs free of cost online and helps one to learn and understand faster.

Challenges of Educational Technology

Besides various Importance Of Technology in Education, India still lacks somewhere to explore the technological educational system. Somehow, we are facing Challenges in establishing modern Educational Technology in the schools.

More screen study time may also lead to some severe health issues. For example, continues use of computers, tablets, and phones for studies may cause back pain, neck pain, blurred vision and more.

In Online classes, teachers cannot monitor every student; this makes them lure them towards cheating. The latest Technology encourages the cheating process among students by sharing test sheets, copy-pasting each other answers, Google answers during the online class test.

Impact of Technology in Education

In today’s world, we all are interlinked with technology everywhere in our daily lives. So why not use Technology in Education. Technology is the only tool that helps to improve the education system in different ways. From teachers to students, technology leaves a vast impact on education. Modern EdTech makes education more flexible and perceptive. Various technology driven education tools have introduced free online resources, personalized learning materials, more engaging content, and a better understanding of visuals and opportunities for advanced learning.

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Essay on Use of Modern Technology in Education

Students are often asked to write an essay on Use of Modern Technology in Education in their schools and colleges. And if you’re also looking for the same, we have created 100-word, 250-word, and 500-word essays on the topic.

Let’s take a look…

100 Words Essay on Use of Modern Technology in Education

Introduction.

Modern technology has transformed education. We now learn in new, exciting ways, thanks to computers, tablets, and smartboards.

Interactive Learning

Technology makes learning interactive. Educational apps and games engage students, making lessons fun and easier to understand.

Access to Information

The internet offers a wealth of knowledge. Students can research any topic, enhancing their learning and broadening their horizons.

Communication

Technology allows better communication between students and teachers. Email and online platforms facilitate discussions, even outside school hours.

In conclusion, modern technology is a powerful tool in education. It makes learning interactive, accessible, and communicative.

250 Words Essay on Use of Modern Technology in Education

Modern technology has significantly impacted various sectors, including education. The integration of technology in education has revolutionized learning by enhancing teaching methods and improving students’ learning experiences.

Modern Technology in Classroom Teaching

Technology has transformed the traditional classroom-based teaching. Interactive whiteboards, digital textbooks, and online learning platforms have replaced chalkboards and hardcopy textbooks. These tools not only make learning more engaging but also promote a more personalized learning experience, catering to the individual needs of students.

The Rise of Online Learning

The advent of online learning platforms has democratized education. MOOCs (Massive Open Online Courses) and other online learning platforms offer courses from renowned universities worldwide, enabling students to access high-quality education regardless of their geographical location. This has also facilitated lifelong learning, allowing individuals to continuously upgrade their skills in a rapidly changing world.

Technology Enhancing Collaboration

Technology has also fostered collaboration in learning. Platforms like Google Classroom enable students to work together on projects, fostering teamwork and enhancing problem-solving skills. Teachers can also monitor students’ progress in real-time, providing timely feedback and support.

In conclusion, the use of modern technology in education has revolutionized the learning experience, making it more engaging, personalized, and accessible. As technology continues to evolve, it will undoubtedly usher in new ways of learning, further enhancing the educational landscape.

500 Words Essay on Use of Modern Technology in Education

Introduction to modern technology in education.

In the 21st century, technology is an integral part of our lives. It has permeated every aspect of human existence, including education. The use of modern technology in education has transformed the traditional methods of teaching and learning, making it more interactive, engaging, and effective.

Integration of Technology in Teaching and Learning

The integration of technology in education has led to the development of new teaching and learning methods. Traditional chalk-and-talk methods have been replaced by interactive smart boards, virtual reality, and augmented reality. These technologies provide an immersive learning environment, facilitating a deeper understanding of the subject matter. For instance, instead of merely reading about the solar system, students can now use VR technology to explore it.

Benefits of Modern Technology in Education

The benefits of modern technology in education are manifold. It promotes personalized learning, where instruction is tailored to each student’s learning pace and style. With adaptive learning systems, students receive customized resources and tasks, enhancing their learning experience.

The use of technology also fosters collaborative learning. Online platforms enable students to work together on projects, share ideas, and provide feedback, irrespective of their geographical locations. This not only enhances their learning but also develops their teamwork and communication skills.

Role of Technology in Assessment

Technology plays a critical role in assessment as well. Digital assessment tools provide immediate feedback, helping students identify their strengths and weaknesses. It also reduces the manual workload of teachers, providing them with more time to focus on teaching.

Challenges of Using Technology in Education

Despite its benefits, the use of technology in education poses several challenges. The digital divide, or the gap between those with access to technology and those without, is a significant issue. This can lead to disparities in educational outcomes. Additionally, the effective integration of technology in education requires significant investment in infrastructure and teacher training.

In conclusion, the use of modern technology in education has the potential to revolutionize teaching and learning. It offers numerous benefits, including personalized learning, collaborative opportunities, and efficient assessment methods. However, it is crucial to address the challenges associated with its use to ensure equitable access to quality education for all. As we continue to navigate the digital age, the integration of technology in education is not just a trend but a necessity.

That’s it! I hope the essay helped you.

If you’re looking for more, here are essays on other interesting topics:

Essay on Use of Mobile Phones
Essay on Use of Internet in Education
Essay on Use of Internet

Apart from these, you can look at all the essays by clicking here .

Happy studying!

200-500 Word Example Essays about Technology

Got an essay assignment about technology check out these examples to inspire you.

Technology is a rapidly evolving field that has completely changed the way we live, work, and interact with one another. Technology has profoundly impacted our daily lives, from how we communicate with friends and family to how we access information and complete tasks. As a result, it's no surprise that technology is a popular topic for students writing essays.

But writing a technology essay can be challenging, especially for those needing more time or help with writer's block. This is where Jenni.ai comes in. Jenni.ai is an innovative AI tool explicitly designed for students who need help writing essays. With Jenni.ai, students can quickly and easily generate essays on various topics, including technology.

This blog post aims to provide readers with various example essays on technology, all generated by Jenni.ai. These essays will be a valuable resource for students looking for inspiration or guidance as they work on their essays. By reading through these example essays, students can better understand how technology can be approached and discussed in an essay.

Moreover, by signing up for a free trial with Jenni.ai, students can take advantage of this innovative tool and receive even more support as they work on their essays. Jenni.ai is designed to help students write essays faster and more efficiently, so they can focus on what truly matters – learning and growing as a student. Whether you're a student who is struggling with writer's block or simply looking for a convenient way to generate essays on a wide range of topics, Jenni.ai is the perfect solution.

The Impact of Technology on Society and Culture

Introduction:.

Technology has become an integral part of our daily lives and has dramatically impacted how we interact, communicate, and carry out various activities. Technological advancements have brought positive and negative changes to society and culture. In this article, we will explore the impact of technology on society and culture and how it has influenced different aspects of our lives.

Positive impact on communication:

Technology has dramatically improved communication and made it easier for people to connect from anywhere in the world. Social media platforms, instant messaging, and video conferencing have brought people closer, bridging geographical distances and cultural differences. This has made it easier for people to share information, exchange ideas, and collaborate on projects.

Positive impact on education:

Students and instructors now have access to a multitude of knowledge and resources because of the effect of technology on education . Students may now study at their speed and from any location thanks to online learning platforms, educational applications, and digital textbooks.

Negative impact on critical thinking and creativity:

Technological advancements have resulted in a reduction in critical thinking and creativity. With so much information at our fingertips, individuals have become more passive in their learning, relying on the internet for solutions rather than logic and inventiveness. As a result, independent thinking and problem-solving abilities have declined.

Positive impact on entertainment:

Technology has transformed how we access and consume entertainment. People may now access a wide range of entertainment alternatives from the comfort of their own homes thanks to streaming services, gaming platforms, and online content makers. The entertainment business has entered a new age of creativity and invention as a result of this.

Negative impact on attention span:

However, the continual bombardment of information and technological stimulation has also reduced attention span and the capacity to focus. People are easily distracted and need help focusing on a single activity for a long time. This has hampered productivity and the ability to accomplish duties.

The Ethics of Artificial Intelligence And Machine Learning

The development of artificial intelligence (AI) and machine learning (ML) technologies has been one of the most significant technological developments of the past several decades. These cutting-edge technologies have the potential to alter several sectors of society, including commerce, industry, healthcare, and entertainment.

As with any new and quickly advancing technology, AI and ML ethics must be carefully studied. The usage of these technologies presents significant concerns around privacy, accountability, and command. As the use of AI and ML grows more ubiquitous, we must assess their possible influence on society and investigate the ethical issues that must be taken into account as these technologies continue to develop.

What are Artificial Intelligence and Machine Learning?

Artificial Intelligence is the simulation of human intelligence in machines designed to think and act like humans. Machine learning is a subfield of AI that enables computers to learn from data and improve their performance over time without being explicitly programmed.

The impact of AI and ML on Society

The use of AI and ML in various industries, such as healthcare, finance, and retail, has brought many benefits. For example, AI-powered medical diagnosis systems can identify diseases faster and more accurately than human doctors. However, there are also concerns about job displacement and the potential for AI to perpetuate societal biases.

The Ethical Considerations of AI and ML

A. Bias in AI algorithms

One of the critical ethical concerns about AI and ML is the potential for algorithms to perpetuate existing biases. This can occur if the data used to train these algorithms reflects the preferences of the people who created it. As a result, AI systems can perpetuate these biases and discriminate against certain groups of people.

B. Responsibility for AI-generated decisions

Another ethical concern is the responsibility for decisions made by AI systems. For example, who is responsible for the damage if a self-driving car causes an accident? The manufacturer of the vehicle, the software developer, or the AI algorithm itself?

C. The potential for misuse of AI and ML

AI and ML can also be used for malicious purposes, such as cyberattacks and misinformation. The need for more regulation and oversight in developing and using these technologies makes it difficult to prevent misuse.

The developments in AI and ML have given numerous benefits to humanity, but they also present significant ethical concerns that must be addressed. We must assess the repercussions of new technologies on society, implement methods to limit the associated dangers, and guarantee that they are utilized for the greater good. As AI and ML continue to play an ever-increasing role in our daily lives, we must engage in an open and frank discussion regarding their ethics.

The Future of Work And Automation

Rapid technological breakthroughs in recent years have brought about considerable changes in our way of life and work. Concerns regarding the influence of artificial intelligence and machine learning on the future of work and employment have increased alongside the development of these technologies. This article will examine the possible advantages and disadvantages of automation and its influence on the labor market, employees, and the economy.

The Advantages of Automation

Automation in the workplace offers various benefits, including higher efficiency and production, fewer mistakes, and enhanced precision. Automated processes may accomplish repetitive jobs quickly and precisely, allowing employees to concentrate on more complex and creative activities. Additionally, automation may save organizations money since it removes the need to pay for labor and minimizes the danger of workplace accidents.

The Potential Disadvantages of Automation

However, automation has significant disadvantages, including job loss and income stagnation. As robots and computers replace human labor in particular industries, there is a danger that many workers may lose their jobs, resulting in higher unemployment and more significant economic disparity. Moreover, if automation is not adequately regulated and managed, it might lead to stagnant wages and a deterioration in employees' standard of life.

The Future of Work and Automation

Despite these difficulties, automation will likely influence how labor is done. As a result, firms, employees, and governments must take early measures to solve possible issues and reap the rewards of automation. This might entail funding worker retraining programs, enhancing education and skill development, and implementing regulations that support equality and justice at work.

IV. The Need for Ethical Considerations

We must consider the ethical ramifications of automation and its effects on society as technology develops. The impact on employees and their rights, possible hazards to privacy and security, and the duty of corporations and governments to ensure that automation is utilized responsibly and ethically are all factors to be taken into account.

Conclusion:

To summarise, the future of employment and automation will most certainly be defined by a complex interaction of technological advances, economic trends, and cultural ideals. All stakeholders must work together to handle the problems and possibilities presented by automation and ensure that technology is employed to benefit society as a whole.

The Role of Technology in Education

Introduction.

Nearly every part of our lives has been transformed by technology, and education is no different. Today's students have greater access to knowledge, opportunities, and resources than ever before, and technology is becoming a more significant part of their educational experience. Technology is transforming how we think about education and creating new opportunities for learners of all ages, from online courses and virtual classrooms to instructional applications and augmented reality.

Technology's Benefits for Education

The capacity to tailor learning is one of technology's most significant benefits in education. Students may customize their education to meet their unique needs and interests since they can access online information and tools.

For instance, people can enroll in online classes on topics they are interested in, get tailored feedback on their work, and engage in virtual discussions with peers and subject matter experts worldwide. As a result, pupils are better able to acquire and develop the abilities and information necessary for success.

Challenges and Concerns

Despite the numerous advantages of technology in education, there are also obstacles and considerations to consider. One issue is the growing reliance on technology and the possibility that pupils would become overly dependent on it. This might result in a lack of critical thinking and problem-solving abilities, as students may become passive learners who only follow instructions and rely on technology to complete their assignments.

Another obstacle is the digital divide between those who have access to technology and those who do not. This division can exacerbate the achievement gap between pupils and produce uneven educational and professional growth chances. To reduce these consequences, all students must have access to the technology and resources necessary for success.

In conclusion, technology is rapidly becoming an integral part of the classroom experience and has the potential to alter the way we learn radically.

Technology can help students flourish and realize their full potential by giving them access to individualized instruction, tools, and opportunities. While the benefits of technology in the classroom are undeniable, it's crucial to be mindful of the risks and take precautions to guarantee that all kids have access to the tools they need to thrive.

The Influence of Technology On Personal Relationships And Communication

Technological advancements have profoundly altered how individuals connect and exchange information. It has changed the world in many ways in only a few decades. Because of the rise of the internet and various social media sites, maintaining relationships with people from all walks of life is now simpler than ever.

However, concerns about how these developments may affect interpersonal connections and dialogue are inevitable in an era of rapid technological growth. In this piece, we'll discuss how the prevalence of digital media has altered our interpersonal connections and the language we use to express ourselves.

Direct Effect on Direct Interaction:

The disruption of face-to-face communication is a particularly stark example of how technology has impacted human connections. The quality of interpersonal connections has suffered due to people's growing preference for digital over human communication. Technology has been demonstrated to reduce the usage of nonverbal signs such as facial expressions, tone of voice, and other indicators of emotional investment in the connection.

Positive Impact on Long-Distance Relationships:

Yet there are positives to be found as well. Long-distance relationships have also benefited from technological advancements. The development of technologies such as video conferencing, instant messaging, and social media has made it possible for individuals to keep in touch with distant loved ones. It has become simpler for individuals to stay in touch and feel connected despite geographical distance.

The Effects of Social Media on Personal Connections:

The widespread use of social media has had far-reaching consequences, especially on the quality of interpersonal interactions. Social media has positive and harmful effects on relationships since it allows people to keep in touch and share life's milestones.

Unfortunately, social media has made it all too easy to compare oneself to others, which may lead to emotions of jealousy and a general decline in confidence. Furthermore, social media might cause people to have inflated expectations of themselves and their relationships.

A Personal Perspective on the Intersection of Technology and Romance

Technological advancements have also altered physical touch and closeness. Virtual reality and other technologies have allowed people to feel physical contact and familiarity in a digital setting. This might be a promising breakthrough, but it has some potential downsides.

Experts are concerned that people's growing dependence on technology for intimacy may lead to less time spent communicating face-to-face and less emphasis on physical contact, both of which are important for maintaining good relationships.

In conclusion, technological advancements have significantly affected the quality of interpersonal connections and the exchange of information. Even though technology has made it simpler to maintain personal relationships, it has chilled interpersonal interactions between people.

Keeping tabs on how technology is changing our lives and making adjustments as necessary is essential as we move forward. Boundaries and prioritizing in-person conversation and physical touch in close relationships may help reduce the harm it causes.

The Security and Privacy Implications of Increased Technology Use and Data Collection

The fast development of technology over the past few decades has made its way into every aspect of our life. Technology has improved many facets of our life, from communication to commerce. However, significant privacy and security problems have emerged due to the broad adoption of technology. In this essay, we'll look at how the widespread use of technological solutions and the subsequent explosion in collected data affects our right to privacy and security.

Data Mining and Privacy Concerns

Risk of Cyber Attacks and Data Loss

The Widespread Use of Encryption and Other Safety Mechanisms

The Privacy and Security of the Future in a Globalized Information Age

Obtaining and Using Individual Information

The acquisition and use of private information is a significant cause for privacy alarm in the digital age. Data about their customers' online habits, interests, and personal information is a valuable commodity for many internet firms. Besides tailored advertising, this information may be used for other, less desirable things like identity theft or cyber assaults.

Moreover, many individuals need to be made aware of what data is being gathered from them or how it is being utilized because of the lack of transparency around gathering personal information. Privacy and data security have become increasingly contentious as a result.

Data breaches and other forms of cyber-attack pose a severe risk.

The risk of cyber assaults and data breaches is another big issue of worry. More people are using more devices, which means more opportunities for cybercriminals to steal private information like credit card numbers and other identifying data. This may cause monetary damages and harm one's reputation or identity.

Many high-profile data breaches have occurred in recent years, exposing the personal information of millions of individuals and raising serious concerns about the safety of this information. Companies and governments have responded to this problem by adopting new security methods like encryption and multi-factor authentication.

Many businesses now use encryption and other security measures to protect themselves from cybercriminals and data thieves. Encryption keeps sensitive information hidden by encoding it so that only those possessing the corresponding key can decipher it. This prevents private information like bank account numbers or social security numbers from falling into the wrong hands.

Firewalls, virus scanners, and two-factor authentication are all additional security precautions that may be used with encryption. While these safeguards do much to stave against cyber assaults, they are not entirely impregnable, and data breaches are still possible.

The Future of Privacy and Security in a Technologically Advanced World

There's little doubt that concerns about privacy and security will persist even as technology improves. There must be strict safeguards to secure people's private information as more and more of it is transferred and kept digitally. To achieve this goal, it may be necessary to implement novel technologies and heightened levels of protection and to revise the rules and regulations regulating the collection and storage of private information.

Individuals and businesses are understandably concerned about the security and privacy consequences of widespread technological use and data collecting. There are numerous obstacles to overcome in a society where technology plays an increasingly important role, from acquiring and using personal data to the risk of cyber-attacks and data breaches. Companies and governments must keep spending money on security measures and working to educate people about the significance of privacy and security if personal data is to remain safe.

In conclusion, technology has profoundly impacted virtually every aspect of our lives, including society and culture, ethics, work, education, personal relationships, and security and privacy. The rise of artificial intelligence and machine learning has presented new ethical considerations, while automation is transforming the future of work.

In education, technology has revolutionized the way we learn and access information. At the same time, our dependence on technology has brought new challenges in terms of personal relationships, communication, security, and privacy.

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In Moscow’s Technological Advances, a ‘Double-Edged Sword’

The latest example is Face Pay, which replaces a Metro card with facial recognition. It may be advanced, but activists are sounding the alarm on privacy issues.

By Celestine Bohlen

The Moscow Metro — a world-class marvel of efficient mass transportation since it opened in 1935 — made headlines last month with a very 21st-century innovation: a payment system that doesn’t require passengers to produce a ticket, a transit card, a smartphone or a contactless bank card. All they have to do is show their face.

By Oct. 15, the facial recognition system, called Face Pay, was up and running at about 240 stations on the Moscow Metro, a sprawling and constantly expanding system famous for its on-time track record and its grandiose and ornate stations.

Moscow city officials were quick to tout the system’s latest technological innovation, one of several over the last decade. “There are no analogues of Face Pay in terms of quality and ease of use for a passenger anywhere in the world,” said Maksim Liksutov, deputy mayor for transport.

To activate Face Pay, passengers must connect their photo with a bank card and the Metro’s Troika, or transit card, via a special mobile app. Once connected, a camera at the turnstiles identifies their faces (even with masks on) and opens the gates. In theory, it should take two to three seconds for a passenger to clear the turnstile, easing the crush of people at peak rush hours.

It is one of the most visible — and controversial — of the city’s projects to modernize its services, one that takes full advantage of advancing biometric technology and the skills of a new generation of Russian computer engineers. “The technology is new and very complex, we will continue to work on improving it,’’ said Moscow’s mayor, Sergei Sobyanin, in a statement.

But digital privacy activists in Russia were quick to raise the alarm, noting that the new system is not just about improving service on the Moscow Metro. “It is a good pretext to put cameras at the turnstiles,’’ said Artyom Koslyuk, a director at Roskomsvoboda, a digital rights group based in Moscow. “This will allow them to perfect the algorithms used for the recognition of faces.’’

According to Mr. Koslyuk, Moscow ranks third in the world for the most surveillance on streets and public transport, with some 200,000 cameras placed around the city and on the Metro to help police identify criminals and prevent crime. Russian police have already used facial recognition to find and arrest demonstrators who participated in peaceful opposition protests.

The two other countries that have gone ahead with facial recognition payment systems are China and Belarus, where privacy rights are also of little concern to the government. (In Belarus, the facial recognition system on the Minsk metro is called Look and Go.) In contrast, the European Parliament voted last month in favor of a nonbinding resolution to ban use of facial recognition technology in public places for police purposes.

Moscow officials have tried to calm concerns about privacy invasion by insisting that the images and data collected are “securely encrypted.’’ Roskomsvoboda, though, said they have uncovered evidence that the system is porous, vulnerable to intruders who can use the data and images for criminal purposes.

Privacy advocates are pushing for a more transparent system of control for this and other advanced, and often intrusive, technologies. “We need to be sure that all these innovations are used to help the people, not harm them,’’ said Mr. Koslyuk.

Face Pay is part of a broader set of efforts in the city to institute technological solutions. Moscow is undoubtedly Russia’s “smartest” city, not least because it is the nation’s capital, and a focus of government attention. Its 12.5 million people make it the second most populous city in Europe — and it is growing. Between 2002 and 2010, while Russia’s population decreased by 1.2 percent, Moscow’s grew by 10.9 percent. And the average wage in the capital is almost double the national average.

The capital also gets royal treatment from the federal government. In 2019, Moscow’s urban renewal budget equaled that of the rest of the country.

“Moscow has the power in terms of finance and budgets,’’ said Sergei Kamolov, a professor at the prestigious Moscow State Institute of International Relations. “Moscow is in the avant-garde, a test case for all different kinds of systems.’’

Two years ago, Russia adopted its own system for ranking its “smart cities,” measuring what is called their “I.Q. level.” This provides benchmarks for cities to measure progress in putting modern techniques and digital services in place for their population. Mr. Kamolov said these are useful tools to pressure local officials to meet targets set in a national “Smart Cities” program.

Mr. Kamolov, who is member of a working group on the “Smart Cities” program, cautions that its ideas and technologies are not easily duplicated from city to city. Nor, he said, do fancy new technologies necessarily have an impact on the citizens’ quality of life. “It seems to me that ‘Smart Cities’ is a deep marketing concept,’’ he said in a telephone interview.

In recent years, Russia has put a major nationwide effort into its e-government services. Ahead of the 2018 World Cup, Russia developed a system of e-visas, allowing tourists to come into the country for a limited time and for limited purpose. And like many countries, it has developed a popular online government portal — known as Gosuslugi , a one-stop website where citizens can retrieve documents, pay fines and make appointments. In a 2020 United Nations e-government survey , Russia’s services ranked 36th out of 193 countries.

In this, as in other areas, Moscow leads the way. More Muscovites use Gosuslgi proportionately than any other region of Russia — not surprising given its concentration of young, educated and computer literate people. But other regions are stepping up efforts to catch up, by offering special courses for computer literacy , especially for the elderly.

Moscow and six other regions were also used as a test case for Russia’s experiment with online voting in last September’s parliamentary elections. The system was challenged by democracy protesters, who described it as a “black box” that allowed the government to fiddle with the vote. Setting aside the contested results — a huge caveat, to be sure — online voting did its job, at least on a technical level.

Moscow has introduced other digital services in health care, in schools and in the legal system, but transportation continues to receive a hefty share of the city’s modernization budget.

According to Mr. Kamolov, Moscow has the largest fleet of electronic buses in Europe while the Metro — which now moves about six million passengers on weekdays (down from more than eight million in the pre-Covid era) — still commands a large portion of public funds: $27 billion for expansion and improvement from 2011 to 2022 , most of it for expansion but some of it undoubtedly for the facial recognition system that is now expected to be introduced in other Russian cities.

At Roskomsvoboda, Mr. Koslyuk says the key to introducing advanced digital services that depend on personal data is trust. ‘‘We need to be sure there are controls,’’ he said. “These improvements can be a double-edged sword.”

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Why students choose Russia as their travel destination

No comments · Posted by Alex Smirnov in Travel

If you are looking for something different but unique and are not satisfied by the traditional offer of tourist destinations, try looking eastward for a moment. We are not talking about the Far East but just east of Europe and a little further than better-known destinations like Venice or Berlin. We invite you to visit Russia and discover interesting facts about Russia that make this country so special.

Today, Russian tourism is on a rise for a variety of reasons, including great food, cultural heritage, and beautiful cities like Moscow or St. Petersburg. Traveling is supposed to be about exploring new things or meeting new people and this country is a tourist gem waiting to be discovered.

1. Cultural Heritage

Russia might be a part of Europe but for most westerners, it is still a mysterious country with a unique mentality that makes them curious. People in Russia seem like warm, emotional souls who like drinking vodka and eating caviar for breakfast which is not far from the truth. This little prejudice doesn’t really summarize their cultural heritage which is vast and colorful.

We could write essays and college papers about Hermitage or Moscow’s Metro which is like a museum in the open. The city of St. Petersburg looks like the capital of some North Pole Kingdom with its castles, boulevards, and winter palaces. Maintaining the beauty of cultural monuments is taken very seriously so each tourist will enjoy a display of east-European architecture and design. We warmly recommend visiting sites like:

* Hermitage Museum * Red Square in Moscow * The Peterhof Palace * Mariinsky Theatre * Saint Isaac’s Cathedral

2. Beautiful Nature

Just like Russian literature, everything in this country comes in big portions and inspires topics and interesting conversations. Huge cities, enormous landscapes, or large meals are just some examples, but traveling is how you get to know a country, not by reading essays or college papers. The most popular thing that students write in their essays on travelling through Russia is it’s frighteningly vast natural wildlife scenery. There are almost fifty national parks across this whole country so take your pick and enjoy connecting with mother nature. One will get plenty of topic ideas to inspire him If he wishes to write an essay after such a mesmerizing trip.

Some of the most beautiful National Parks are:

* Losiny Ostrov * Bashkiriya * Kenozersky * Kalevalsky * Chavash Varmane

3. Education Opportunities

While native Russian might be a little difficult to learn, for those who conquer its basics, there are amazing opportunities to study in Russian college or university. Know that Russia’s education system is quite liberal so if you wondered does Russia have free college, the answer is affirmative. Many exchange student programs are available for those who show interest to study here.

This could be a unique chance to exchange cultural capital and values while reaching your educational goals. Studying in a Russian college is not so different in terms of taking classes and other obligations like writing research papers on various topics. Having paper due assignments might come less often because Russians prefer oral examination or open discussion.

Some of the Top Universities to check out:

* Tomsk Polytechnic University * MISIS University of Science and Technology * Moscow Engineering Physics Institute * HSE University of Economics

4. Having Fun Russian Style

After all those essays, topic ideas, and college papers it is time to have some proper fun. Join your new friends as they take you through local taverns, try domestic cuisine, plus a few shots of national drinks. There are so many examples of traditional hospitality that one will experience on every corner, as he discovers some fabulous wonders of this great country. If one could write summaries about his Russian experience it would definitely include accounts of long nights in Moscow’s inns and nightclubs.

Maybe one of these:

* Propaganda * Pravda Club * Gipsy * City Pub Crawl

These are the Russia facts, but we encourage travelers to explore uncharted territories by hanging out with local people thus learning about their culture and customs. That is the best way to truly understand the heart of its people. Changing scenery is always good for young students as it signals a fresh start in their lives. Maybe visiting this country will refresh your spirit or inspire you to achieve all your educational goals and dreams.

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