maria is conducting a research project

Illustration by James Round

How to plan a research project

Whether for a paper or a thesis, define your question, review the work of others – and leave yourself open to discovery.

by Brooke Harrington   + BIO

is professor of sociology at Dartmouth College in New Hampshire. Her research has won international awards both for scholarly quality and impact on public life. She has published dozens of articles and three books, most recently the bestseller Capital without Borders (2016), now translated into five languages.

Edited by Sam Haselby

Need to know

‘When curiosity turns to serious matters, it’s called research.’ – From Aphorisms (1880-1905) by Marie von Ebner-Eschenbach

Planning research projects is a time-honoured intellectual exercise: one that requires both creativity and sharp analytical skills. The purpose of this Guide is to make the process systematic and easy to understand. While there is a great deal of freedom and discovery involved – from the topics you choose, to the data and methods you apply – there are also some norms and constraints that obtain, no matter what your academic level or field of study. For those in high school through to doctoral students, and from art history to archaeology, research planning involves broadly similar steps, including: formulating a question, developing an argument or predictions based on previous research, then selecting the information needed to answer your question.

Some of this might sound self-evident but, as you’ll find, research requires a different way of approaching and using information than most of us are accustomed to in everyday life. That is why I include orienting yourself to knowledge-creation as an initial step in the process. This is a crucial and underappreciated phase in education, akin to making the transition from salaried employment to entrepreneurship: suddenly, you’re on your own, and that requires a new way of thinking about your work.

What follows is a distillation of what I’ve learned about this process over 27 years as a professional social scientist. It reflects the skills that my own professors imparted in the sociology doctoral programme at Harvard, as well as what I learned later on as a research supervisor for Ivy League PhD and MA students, and then as the author of award-winning scholarly books and articles. It can be adapted to the demands of both short projects (such as course term papers) and long ones, such as a thesis.

At its simplest, research planning involves the four distinct steps outlined below: orienting yourself to knowledge-creation; defining your research question; reviewing previous research on your question; and then choosing relevant data to formulate your own answers. Because the focus of this Guide is on planning a research project, as opposed to conducting a research project, this section won’t delve into the details of data-collection or analysis; those steps happen after you plan the project. In addition, the topic is vast: year-long doctoral courses are devoted to data and analysis. Instead, the fourth part of this section will outline some basic strategies you could use in planning a data-selection and analysis process appropriate to your research question.

Step 1: Orient yourself

Planning and conducting research requires you to make a transition, from thinking like a consumer of information to thinking like a producer of information. That sounds simple, but it’s actually a complex task. As a practical matter, this means putting aside the mindset of a student, which treats knowledge as something created by other people. As students, we are often passive receivers of knowledge: asked to do a specified set of readings, then graded on how well we reproduce what we’ve read.

Researchers, however, must take on an active role as knowledge producers . Doing research requires more of you than reading and absorbing what other people have written: you have to engage in a dialogue with it. That includes arguing with previous knowledge and perhaps trying to show that ideas we have accepted as given are actually wrong or incomplete. For example, rather than simply taking in the claims of an author you read, you’ll need to draw out the implications of those claims: if what the author is saying is true, what else does that suggest must be true? What predictions could you make based on the author’s claims?

In other words, rather than treating a reading as a source of truth – even if it comes from a revered source, such as Plato or Marie Curie – this orientation step asks you to treat the claims you read as provisional and subject to interrogation. That is one of the great pieces of wisdom that science and philosophy can teach us: that the biggest advances in human understanding have been made not by being correct about trivial things, but by being wrong in an interesting way . For example, Albert Einstein was wrong about quantum mechanics, but his arguments about it with his fellow physicist Niels Bohr have led to some of the biggest breakthroughs in science, even a century later.

Step 2: Define your research question

Students often give this step cursory attention, but experienced researchers know that formulating a good question is sometimes the most difficult part of the research planning process. That is because the precise language of the question frames the rest of the project. It’s therefore important to pose the question carefully, in a way that’s both possible to answer and likely to yield interesting results. Of course, you must choose a question that interests you, but that’s only the beginning of what’s likely to be an iterative process: most researchers come back to this step repeatedly, modifying their questions in light of previous research, resource limitations and other considerations.

Researchers face limits in terms of time and money. They, like everyone else, have to pose research questions that they can plausibly answer given the constraints they face. For example, it would be inadvisable to frame a project around the question ‘What are the roots of the Arab-Israeli conflict?’ if you have only a week to develop an answer and no background on that topic. That’s not to limit your imagination: you can come up with any question you’d like. But it typically does require some creativity to frame a question that you can answer well – that is, by investigating thoroughly and providing new insights – within the limits you face.

In addition to being interesting to you, and feasible within your resource constraints, the third and most important characteristic of a ‘good’ research topic is whether it allows you to create new knowledge. It might turn out that your question has already been asked and answered to your satisfaction: if so, you’ll find out in the next step of this process. On the other hand, you might come up with a research question that hasn’t been addressed previously. Before you get too excited about breaking uncharted ground, consider this: a lot of potentially researchable questions haven’t been studied for good reason ; they might have answers that are trivial or of very limited interest. This could include questions such as ‘Why does the area of a circle equal π r²?’ or ‘Did winter conditions affect Napoleon’s plans to invade Russia?’ Of course, you might be able to make the argument that a seemingly trivial question is actually vitally important, but you must be prepared to back that up with convincing evidence. The exercise in the ‘Learn More’ section below will help you think through some of these issues.

Finally, scholarly research questions must in some way lead to new and distinctive insights. For example, lots of people have studied gender roles in sports teams; what can you ask that hasn’t been asked before? Reinventing the wheel is the number-one no-no in this endeavour. That’s why the next step is so important: reviewing previous research on your topic. Depending on what you find in that step, you might need to revise your research question; iterating between your question and the existing literature is a normal process. But don’t worry: it doesn’t go on forever. In fact, the iterations taper off – and your research question stabilises – as you develop a firm grasp of the current state of knowledge on your topic.

Step 3: Review previous research

In academic research, from articles to books, it’s common to find a section called a ‘literature review’. The purpose of that section is to describe the state of the art in knowledge on the research question that a project has posed. It demonstrates that researchers have thoroughly and systematically reviewed the relevant findings of previous studies on their topic, and that they have something novel to contribute.

Your own research project should include something like this, even if it’s a high-school term paper. In the research planning process, you’ll want to list at least half a dozen bullet points stating the major findings on your topic by other people. In relation to those findings, you should be able to specify where your project could provide new and necessary insights. There are two basic rhetorical positions one can take in framing the novelty-plus-importance argument required of academic research:

• Position 1 requires you to build on or extend a set of existing ideas; that means saying something like: ‘Person A has argued that X is true about gender; this implies Y, which has not yet been tested. My project will test Y, and if I find evidence to support it, that will change the way we understand gender.’
• Position 2 is to argue that there is a gap in existing knowledge, either because previous research has reached conflicting conclusions or has failed to consider something important. For example, one could say that research on middle schoolers and gender has been limited by being conducted primarily in coeducational environments, and that findings might differ dramatically if research were conducted in more schools where the student body was all-male or all-female.

Your overall goal in this step of the process is to show that your research will be part of a larger conversation: that is, how your project flows from what’s already known, and how it advances, extends or challenges that existing body of knowledge. That will be the contribution of your project, and it constitutes the motivation for your research.

Two things are worth mentioning about your search for sources of relevant previous research. First, you needn’t look only at studies on your precise topic. For example, if you want to study gender-identity formation in schools, you shouldn’t restrict yourself to studies of schools; the empirical setting (schools) is secondary to the larger social process that interests you (how people form gender identity). That process occurs in many different settings, so cast a wide net. Second, be sure to use legitimate sources – meaning publications that have been through some sort of vetting process, whether that involves peer review (as with academic journal articles you might find via Google Scholar) or editorial review (as you’d find in well-known mass media publications, such as The Economist or The Washington Post ). What you’ll want to avoid is using unvetted sources such as personal blogs or Wikipedia. Why? Because anybody can write anything in those forums, and there is no way to know – unless you’re already an expert – if the claims you find there are accurate. Often, they’re not.

Step 4: Choose your data and methods

Whatever your research question is, eventually you’ll need to consider which data source and analytical strategy are most likely to provide the answers you’re seeking. One starting point is to consider whether your question would be best addressed by qualitative data (such as interviews, observations or historical records), quantitative data (such as surveys or census records) or some combination of both. Your ideas about data sources will, in turn, suggest options for analytical methods.

You might need to collect your own data, or you might find everything you need readily available in an existing dataset someone else has created. A great place to start is with a research librarian: university libraries always have them and, at public universities, those librarians can work with the public, including people who aren’t affiliated with the university. If you don’t happen to have a public university and its library close at hand, an ordinary public library can still be a good place to start: the librarians are often well versed in accessing data sources that might be relevant to your study, such as the census, or historical archives, or the Survey of Consumer Finances.

Because your task at this point is to plan research, rather than conduct it, the purpose of this step is not to commit you irrevocably to a course of action. Instead, your goal here is to think through a feasible approach to answering your research question. You’ll need to find out, for example, whether the data you want exist; if not, do you have a realistic chance of gathering the data yourself, or would it be better to modify your research question? In terms of analysis, would your strategy require you to apply statistical methods? If so, do you have those skills? If not, do you have time to learn them, or money to hire a research assistant to run the analysis for you?

Please be aware that qualitative methods in particular are not the casual undertaking they might appear to be. Many people make the mistake of thinking that only quantitative data and methods are scientific and systematic, while qualitative methods are just a fancy way of saying: ‘I talked to some people, read some old newspapers, and drew my own conclusions.’ Nothing could be further from the truth. In the final section of this guide, you’ll find some links to resources that will provide more insight on standards and procedures governing qualitative research, but suffice it to say: there are rules about what constitutes legitimate evidence and valid analytical procedure for qualitative data, just as there are for quantitative data.

Circle back and consider revising your initial plans

As you work through these four steps in planning your project, it’s perfectly normal to circle back and revise. Research planning is rarely a linear process. It’s also common for new and unexpected avenues to suggest themselves. As the sociologist Thorstein Veblen wrote in 1908 : ‘The outcome of any serious research can only be to make two questions grow where only one grew before.’ That’s as true of research planning as it is of a completed project. Try to enjoy the horizons that open up for you in this process, rather than becoming overwhelmed; the four steps, along with the two exercises that follow, will help you focus your plan and make it manageable.

Key points – How to plan a research project

• Planning a research project is essential no matter your academic level or field of study. There is no one ‘best’ way to design research, but there are certain guidelines that can be helpfully applied across disciplines.
• Orient yourself to knowledge-creation. Make the shift from being a consumer of information to being a producer of information.
• Define your research question. Your question frames the rest of your project, sets the scope, and determines the kinds of answers you can find.
• Review previous research on your question. Survey the existing body of relevant knowledge to ensure that your research will be part of a larger conversation.
• Choose your data and methods. For instance, will you be collecting qualitative data, via interviews, or numerical data, via surveys?
• Circle back and consider revising your initial plans. Expect your research question in particular to undergo multiple rounds of refinement as you learn more about your topic.

Good research questions tend to beget more questions. This can be frustrating for those who want to get down to business right away. Try to make room for the unexpected: this is usually how knowledge advances. Many of the most significant discoveries in human history have been made by people who were looking for something else entirely. There are ways to structure your research planning process without over-constraining yourself; the two exercises below are a start, and you can find further methods in the Links and Books section.

The following exercise provides a structured process for advancing your research project planning. After completing it, you’ll be able to do the following:

• describe clearly and concisely the question you’ve chosen to study
• summarise the state of the art in knowledge about the question, and where your project could contribute new insight
• identify the best strategy for gathering and analysing relevant data

In other words, the following provides a systematic means to establish the building blocks of your research project.

Exercise 1: Definition of research question and sources

This exercise prompts you to select and clarify your general interest area, develop a research question, and investigate sources of information. The annotated bibliography will also help you refine your research question so that you can begin the second assignment, a description of the phenomenon you wish to study.

Jot down a few bullet points in response to these two questions, with the understanding that you’ll probably go back and modify your answers as you begin reading other studies relevant to your topic:

• What will be the general topic of your paper?
• What will be the specific topic of your paper?

b) Research question(s)

Use the following guidelines to frame a research question – or questions – that will drive your analysis. As with Part 1 above, you’ll probably find it necessary to change or refine your research question(s) as you complete future assignments.

• Your question should be phrased so that it can’t be answered with a simple ‘yes’ or ‘no’.
• Your question should have more than one plausible answer.
• Your question should draw relationships between two or more concepts; framing the question in terms of How? or What? often works better than asking Why ?

c) Annotated bibliography

Most or all of your background information should come from two sources: scholarly books and journals, or reputable mass media sources. You might be able to access journal articles electronically through your library, using search engines such as JSTOR and Google Scholar. This can save you a great deal of time compared with going to the library in person to search periodicals. General news sources, such as those accessible through LexisNexis, are acceptable, but should be cited sparingly, since they don’t carry the same level of credibility as scholarly sources. As discussed above, unvetted sources such as blogs and Wikipedia should be avoided, because the quality of the information they provide is unreliable and often misleading.

To create an annotated bibliography, provide the following information for at least 10 sources relevant to your specific topic, using the format suggested below.

Name of author(s):

Publication date:

Title of book, chapter, or article:

If a chapter or article, title of journal or book where they appear:

Brief description of this work, including main findings and methods ( c 75 words):

Summary of how this work contributes to your project ( c 75 words):

Brief description of the implications of this work ( c 25 words):

Identify any gap or controversy in knowledge this work points up, and how your project could address those problems ( c 50 words):

Exercise 2: Towards an analysis

Develop a short statement ( c 250 words) about the kind of data that would be useful to address your research question, and how you’d analyse it. Some questions to consider in writing this statement include:

• What are the central concepts or variables in your project? Offer a brief definition of each.
• Do any data sources exist on those concepts or variables, or would you need to collect data?
• Of the analytical strategies you could apply to that data, which would be the most appropriate to answer your question? Which would be the most feasible for you? Consider at least two methods, noting their advantages or disadvantages for your project.

Links & books

One of the best texts ever written about planning and executing research comes from a source that might be unexpected: a 60-year-old work on urban planning by a self-trained scholar. The classic book The Death and Life of Great American Cities (1961) by Jane Jacobs (available complete and free of charge via this link ) is worth reading in its entirety just for the pleasure of it. But the final 20 pages – a concluding chapter titled ‘The Kind of Problem a City Is’ – are really about the process of thinking through and investigating a problem. Highly recommended as a window into the craft of research.

Jacobs’s text references an essay on advancing human knowledge by the mathematician Warren Weaver. At the time, Weaver was director of the Rockefeller Foundation, in charge of funding basic research in the natural and medical sciences. Although the essay is titled ‘A Quarter Century in the Natural Sciences’ (1960) and appears at first blush to be merely a summation of one man’s career, it turns out to be something much bigger and more interesting: a meditation on the history of human beings seeking answers to big questions about the world. Weaver goes back to the 17th century to trace the origins of systematic research thinking, with enthusiasm and vivid anecdotes that make the process come alive. The essay is worth reading in its entirety, and is available free of charge via this link .

For those seeking a more in-depth, professional-level discussion of the logic of research design, the political scientist Harvey Starr provides insight in a compact format in the article ‘Cumulation from Proper Specification: Theory, Logic, Research Design, and “Nice” Laws’ (2005). Starr reviews the ‘research triad’, consisting of the interlinked considerations of formulating a question, selecting relevant theories and applying appropriate methods. The full text of the article, published in the scholarly journal Conflict Management and Peace Science , is available, free of charge, via this link .

Finally, the book Getting What You Came For (1992) by Robert Peters is not only an outstanding guide for anyone contemplating graduate school – from the application process onward – but it also includes several excellent chapters on planning and executing research, applicable across a wide variety of subject areas. It was an invaluable resource for me 25 years ago, and it remains in print with good reason; I recommend it to all my students, particularly Chapter 16 (‘The Thesis Topic: Finding It’), Chapter 17 (‘The Thesis Proposal’) and Chapter 18 (‘The Thesis: Writing It’).

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Home » Research Project – Definition, Writing Guide and Ideas

Research Project – Definition, Writing Guide and Ideas

Table of Contents

Research Project

Definition :

Research Project is a planned and systematic investigation into a specific area of interest or problem, with the goal of generating new knowledge, insights, or solutions. It typically involves identifying a research question or hypothesis, designing a study to test it, collecting and analyzing data, and drawing conclusions based on the findings.

Types of Research Project

Types of Research Projects are as follows:

Basic Research

This type of research focuses on advancing knowledge and understanding of a subject area or phenomenon, without any specific application or practical use in mind. The primary goal is to expand scientific or theoretical knowledge in a particular field.

Applied Research

Applied research is aimed at solving practical problems or addressing specific issues. This type of research seeks to develop solutions or improve existing products, services or processes.

Action Research

Action research is conducted by practitioners and aimed at solving specific problems or improving practices in a particular context. It involves collaboration between researchers and practitioners, and often involves iterative cycles of data collection and analysis, with the goal of improving practices.

Quantitative Research

This type of research uses numerical data to investigate relationships between variables or to test hypotheses. It typically involves large-scale data collection through surveys, experiments, or secondary data analysis.

Qualitative Research

Qualitative research focuses on understanding and interpreting phenomena from the perspective of the people involved. It involves collecting and analyzing data in the form of text, images, or other non-numerical forms.

Mixed Methods Research

Mixed methods research combines elements of both quantitative and qualitative research, using multiple data sources and methods to gain a more comprehensive understanding of a phenomenon.

Longitudinal Research

This type of research involves studying a group of individuals or phenomena over an extended period of time, often years or decades. It is useful for understanding changes and developments over time.

Case Study Research

Case study research involves in-depth investigation of a particular case or phenomenon, often within a specific context. It is useful for understanding complex phenomena in their real-life settings.

Participatory Research

Participatory research involves active involvement of the people or communities being studied in the research process. It emphasizes collaboration, empowerment, and the co-production of knowledge.

Research Project Methodology

Research Project Methodology refers to the process of conducting research in an organized and systematic manner to answer a specific research question or to test a hypothesis. A well-designed research project methodology ensures that the research is rigorous, valid, and reliable, and that the findings are meaningful and can be used to inform decision-making.

There are several steps involved in research project methodology, which are described below:

Define the Research Question

The first step in any research project is to clearly define the research question or problem. This involves identifying the purpose of the research, the scope of the research, and the key variables that will be studied.

Develop a Research Plan

Once the research question has been defined, the next step is to develop a research plan. This plan outlines the methodology that will be used to collect and analyze data, including the research design, sampling strategy, data collection methods, and data analysis techniques.

Collect Data

The data collection phase involves gathering information through various methods, such as surveys, interviews, observations, experiments, or secondary data analysis. The data collected should be relevant to the research question and should be of sufficient quantity and quality to enable meaningful analysis.

Analyze Data

Once the data has been collected, it is analyzed using appropriate statistical techniques or other methods. The analysis should be guided by the research question and should aim to identify patterns, trends, relationships, or other insights that can inform the research findings.

Interpret and Report Findings

The final step in the research project methodology is to interpret the findings and report them in a clear and concise manner. This involves summarizing the results, discussing their implications, and drawing conclusions that can be used to inform decision-making.

Research Project Writing Guide

Here are some guidelines to help you in writing a successful research project:

• Choose a topic: Choose a topic that you are interested in and that is relevant to your field of study. It is important to choose a topic that is specific and focused enough to allow for in-depth research and analysis.
• Conduct a literature review : Conduct a thorough review of the existing research on your topic. This will help you to identify gaps in the literature and to develop a research question or hypothesis.
• Develop a research question or hypothesis : Based on your literature review, develop a clear research question or hypothesis that you will investigate in your study.
• Design your study: Choose an appropriate research design and methodology to answer your research question or test your hypothesis. This may include choosing a sample, selecting measures or instruments, and determining data collection methods.
• Collect data: Collect data using your chosen methods and instruments. Be sure to follow ethical guidelines and obtain informed consent from participants if necessary.
• Analyze data: Analyze your data using appropriate statistical or qualitative methods. Be sure to clearly report your findings and provide interpretations based on your research question or hypothesis.
• Discuss your findings : Discuss your findings in the context of the existing literature and your research question or hypothesis. Identify any limitations or implications of your study and suggest directions for future research.
• Write your project: Write your research project in a clear and organized manner, following the appropriate format and style guidelines for your field of study. Be sure to include an introduction, literature review, methodology, results, discussion, and conclusion.
• Revise and edit: Revise and edit your project for clarity, coherence, and accuracy. Be sure to proofread for spelling, grammar, and formatting errors.
• Cite your sources: Cite your sources accurately and appropriately using the appropriate citation style for your field of study.

Examples of Research Projects

Some Examples of Research Projects are as follows:

• Investigating the effects of a new medication on patients with a particular disease or condition.
• Exploring the impact of exercise on mental health and well-being.
• Studying the effectiveness of a new teaching method in improving student learning outcomes.
• Examining the impact of social media on political participation and engagement.
• Investigating the efficacy of a new therapy for a specific mental health disorder.
• Exploring the use of renewable energy sources in reducing carbon emissions and mitigating climate change.
• Studying the effects of a new agricultural technique on crop yields and environmental sustainability.
• Investigating the effectiveness of a new technology in improving business productivity and efficiency.
• Examining the impact of a new public policy on social inequality and access to resources.
• Exploring the factors that influence consumer behavior in a specific market.

Characteristics of Research Project

Here are some of the characteristics that are often associated with research projects:

• Clear objective: A research project is designed to answer a specific question or solve a particular problem. The objective of the research should be clearly defined from the outset.
• Systematic approach: A research project is typically carried out using a structured and systematic approach that involves careful planning, data collection, analysis, and interpretation.
• Rigorous methodology: A research project should employ a rigorous methodology that is appropriate for the research question being investigated. This may involve the use of statistical analysis, surveys, experiments, or other methods.
• Data collection : A research project involves collecting data from a variety of sources, including primary sources (such as surveys or experiments) and secondary sources (such as published literature or databases).
• Analysis and interpretation : Once the data has been collected, it needs to be analyzed and interpreted. This involves using statistical techniques or other methods to identify patterns or relationships in the data.
• Conclusion and implications : A research project should lead to a clear conclusion that answers the research question. It should also identify the implications of the findings for future research or practice.
• Communication: The results of the research project should be communicated clearly and effectively, using appropriate language and visual aids, to a range of audiences, including peers, stakeholders, and the wider public.

Importance of Research Project

Research projects are an essential part of the process of generating new knowledge and advancing our understanding of various fields of study. Here are some of the key reasons why research projects are important:

• Advancing knowledge : Research projects are designed to generate new knowledge and insights into particular topics or questions. This knowledge can be used to inform policies, practices, and decision-making processes across a range of fields.
• Solving problems: Research projects can help to identify solutions to real-world problems by providing a better understanding of the causes and effects of particular issues.
• Developing new technologies: Research projects can lead to the development of new technologies or products that can improve people’s lives or address societal challenges.
• Improving health outcomes: Research projects can contribute to improving health outcomes by identifying new treatments, diagnostic tools, or preventive strategies.
• Enhancing education: Research projects can enhance education by providing new insights into teaching and learning methods, curriculum development, and student learning outcomes.
• Informing public policy : Research projects can inform public policy by providing evidence-based recommendations and guidance on issues related to health, education, environment, social justice, and other areas.
• Enhancing professional development : Research projects can enhance the professional development of researchers by providing opportunities to develop new skills, collaborate with colleagues, and share knowledge with others.

Research Project Ideas

Following are some Research Project Ideas:

Field: Psychology

• Investigating the impact of social support on coping strategies among individuals with chronic illnesses.
• Exploring the relationship between childhood trauma and adult attachment styles.
• Examining the effects of exercise on cognitive function and brain health in older adults.
• Investigating the impact of sleep deprivation on decision making and risk-taking behavior.
• Exploring the relationship between personality traits and leadership styles in the workplace.
• Examining the effectiveness of cognitive-behavioral therapy (CBT) for treating anxiety disorders.
• Investigating the relationship between social comparison and body dissatisfaction in young women.
• Exploring the impact of parenting styles on children’s emotional regulation and behavior.
• Investigating the effectiveness of mindfulness-based interventions for treating depression.
• Examining the relationship between childhood adversity and later-life health outcomes.

Field: Economics

• Analyzing the impact of trade agreements on economic growth in developing countries.
• Examining the effects of tax policy on income distribution and poverty reduction.
• Investigating the relationship between foreign aid and economic development in low-income countries.
• Exploring the impact of globalization on labor markets and job displacement.
• Analyzing the impact of minimum wage laws on employment and income levels.
• Investigating the effectiveness of monetary policy in managing inflation and unemployment.
• Examining the relationship between economic freedom and entrepreneurship.
• Analyzing the impact of income inequality on social mobility and economic opportunity.
• Investigating the role of education in economic development.
• Examining the effectiveness of different healthcare financing systems in promoting health equity.

Field: Sociology

• Investigating the impact of social media on political polarization and civic engagement.
• Examining the effects of neighborhood characteristics on health outcomes.
• Analyzing the impact of immigration policies on social integration and cultural diversity.
• Investigating the relationship between social support and mental health outcomes in older adults.
• Exploring the impact of income inequality on social cohesion and trust.
• Analyzing the effects of gender and race discrimination on career advancement and pay equity.
• Investigating the relationship between social networks and health behaviors.
• Examining the effectiveness of community-based interventions for reducing crime and violence.
• Analyzing the impact of social class on cultural consumption and taste.
• Investigating the relationship between religious affiliation and social attitudes.

Field: Computer Science

• Developing an algorithm for detecting fake news on social media.
• Investigating the effectiveness of different machine learning algorithms for image recognition.
• Developing a natural language processing tool for sentiment analysis of customer reviews.
• Analyzing the security implications of blockchain technology for online transactions.
• Investigating the effectiveness of different recommendation algorithms for personalized advertising.
• Developing an artificial intelligence chatbot for mental health counseling.
• Investigating the effectiveness of different algorithms for optimizing online advertising campaigns.
• Developing a machine learning model for predicting consumer behavior in online marketplaces.
• Analyzing the privacy implications of different data sharing policies for online platforms.
• Investigating the effectiveness of different algorithms for predicting stock market trends.

Field: Education

• Investigating the impact of teacher-student relationships on academic achievement.
• Analyzing the effectiveness of different pedagogical approaches for promoting student engagement and motivation.
• Examining the effects of school choice policies on academic achievement and social mobility.
• Investigating the impact of technology on learning outcomes and academic achievement.
• Analyzing the effects of school funding disparities on educational equity and achievement gaps.
• Investigating the relationship between school climate and student mental health outcomes.
• Examining the effectiveness of different teaching strategies for promoting critical thinking and problem-solving skills.
• Investigating the impact of social-emotional learning programs on student behavior and academic achievement.
• Analyzing the effects of standardized testing on student motivation and academic achievement.

Field: Environmental Science

• Investigating the impact of climate change on species distribution and biodiversity.
• Analyzing the effectiveness of different renewable energy technologies in reducing carbon emissions.
• Examining the impact of air pollution on human health outcomes.
• Investigating the relationship between urbanization and deforestation in developing countries.
• Analyzing the effects of ocean acidification on marine ecosystems and biodiversity.
• Investigating the impact of land use change on soil fertility and ecosystem services.
• Analyzing the effectiveness of different conservation policies and programs for protecting endangered species and habitats.
• Investigating the relationship between climate change and water resources in arid regions.
• Examining the impact of plastic pollution on marine ecosystems and biodiversity.
• Investigating the effects of different agricultural practices on soil health and nutrient cycling.

Field: Linguistics

• Analyzing the impact of language diversity on social integration and cultural identity.
• Investigating the relationship between language and cognition in bilingual individuals.
• Examining the effects of language contact and language change on linguistic diversity.
• Investigating the role of language in shaping cultural norms and values.
• Analyzing the effectiveness of different language teaching methodologies for second language acquisition.
• Investigating the relationship between language proficiency and academic achievement.
• Examining the impact of language policy on language use and language attitudes.
• Investigating the role of language in shaping gender and social identities.
• Analyzing the effects of dialect contact on language variation and change.
• Investigating the relationship between language and emotion expression.

Field: Political Science

• Analyzing the impact of electoral systems on women’s political representation.
• Investigating the relationship between political ideology and attitudes towards immigration.
• Examining the effects of political polarization on democratic institutions and political stability.
• Investigating the impact of social media on political participation and civic engagement.
• Analyzing the effects of authoritarianism on human rights and civil liberties.
• Investigating the relationship between public opinion and foreign policy decisions.
• Examining the impact of international organizations on global governance and cooperation.
• Investigating the effectiveness of different conflict resolution strategies in resolving ethnic and religious conflicts.
• Analyzing the effects of corruption on economic development and political stability.
• Investigating the role of international law in regulating global governance and human rights.

Field: Medicine

• Investigating the impact of lifestyle factors on chronic disease risk and prevention.
• Examining the effectiveness of different treatment approaches for mental health disorders.
• Investigating the relationship between genetics and disease susceptibility.
• Analyzing the effects of social determinants of health on health outcomes and health disparities.
• Investigating the impact of different healthcare delivery models on patient outcomes and cost effectiveness.
• Examining the effectiveness of different prevention and treatment strategies for infectious diseases.
• Investigating the relationship between healthcare provider communication skills and patient satisfaction and outcomes.
• Analyzing the effects of medical error and patient safety on healthcare quality and outcomes.
• Investigating the impact of different pharmaceutical pricing policies on access to essential medicines.
• Examining the effectiveness of different rehabilitation approaches for improving function and quality of life in individuals with disabilities.

Field: Anthropology

• Analyzing the impact of colonialism on indigenous cultures and identities.
• Investigating the relationship between cultural practices and health outcomes in different populations.
• Examining the effects of globalization on cultural diversity and cultural exchange.
• Investigating the role of language in cultural transmission and preservation.
• Analyzing the effects of cultural contact on cultural change and adaptation.
• Investigating the impact of different migration policies on immigrant integration and acculturation.
• Examining the role of gender and sexuality in cultural norms and values.
• Investigating the impact of cultural heritage preservation on tourism and economic development.
• Analyzing the effects of cultural revitalization movements on indigenous communities.

About the author

Muhammad Hassan

Researcher, Academic Writer, Web developer

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WashU Libraries

Conducting research, the research process.

• Step 1: Exploring an idea
• Step 2: Finding background info.
• Step 3: Gathering more info.
• Get it This link opens in a new window
• Step 5: Evaluating your sources
• Step 6: Citing your sources
• FAQs This link opens in a new window
• Library Vocabulary
• Research in the Humanities
• Research in the Social Sciences
• Research in the Sciences

Step 1: Exploring Your Research Idea and Constructing Your Search

If you know you are interested in doing research in a broad subject area, try to think of ways you can make your subject more specific. One way is by stating your topic as a question. For example, if you are interested in writing about sleep disorders you might ask yourself the following question: Can sleep disorders affect academic success in college students? If you don't have enough information to express your topic idea as a specific question, do some background reading first.

Step 2:  Finding Background Information

Consult general reference sources, e.g., an encyclopedia, before jumping into more specialized and specific searches. Encyclopedias provide information on key concepts, context, and vocabulary for many different fields. Subject-specific encyclopedias will provide additional information that may lead to ideas for additional search terms.

Step 3:  Gathering More Information

Use the search terms/keywords you brainstormed in Step 1: Exploring your Research Idea to search the Classic Catalog . Note where the item is located in the library and the circulation status. When you find a good book, scan the bibliography for additional sources. Look for book-length bibliographies, literature reviews, and annual reviews in your research area; this type of resource lists hundreds of books and articles in one subject area. To find these resources, use your keywords/search terms followed by the word "AND bibliographies" in the Classic Catalog .

Step 4:  Locating Current Research

Journal articles are a great resource for learning about cutting-edge research in your area. Indexes and databases allow you to search across many journal publishers at once to find citations, abstracts, and full-text to articles.

Step 5:  Evaluating Your Sources

As you search and find citations and/or abstracts for specific books, articles, or websites, consider the following established criteria for evaluating the quality of books, journal articles, and websites.

Step 6:  Cite What You Find in Discipline-Appropriate Format

When conducting research, it’s necessary to document sources you use; commonly, this is called citing your sources. Citing your sources is an important part of research and scholarship; it is important to give credit to the ideas of others. In addition, readers of your work may want to find and read some of the sources you used. Different academic disciplines follow different citation styles. Two of the more common citation styles are APA or MLA. Failing to cite properly is plagiarism. For further details on other aspects of plagiarism, consult WU’s Academic Integrity Policy .

• Research Tips
• Responsible and Efficient Literature Searching
• Next: Step 1: Exploring an idea >>
• Last Updated: Apr 11, 2024 3:23 PM
• URL: https://libguides.wustl.edu/research

Frequently asked questions

What is a research project.

A research project is an academic, scientific, or professional undertaking to answer a research question . Research projects can take many forms, such as qualitative or quantitative , descriptive , longitudinal , experimental , or correlational . What kind of research approach you choose will depend on your topic.

Frequently asked questions: Writing a research paper

The best way to remember the difference between a research plan and a research proposal is that they have fundamentally different audiences. A research plan helps you, the researcher, organize your thoughts. On the other hand, a dissertation proposal or research proposal aims to convince others (e.g., a supervisor, a funding body, or a dissertation committee) that your research topic is relevant and worthy of being conducted.

Formulating a main research question can be a difficult task. Overall, your question should contribute to solving the problem that you have defined in your problem statement .

However, it should also fulfill criteria in three main areas:

• Researchability
• Feasibility and specificity
• Relevance and originality

Research questions anchor your whole project, so it’s important to spend some time refining them.

In general, they should be:

• Focused and researchable
• Answerable using credible sources
• Complex and arguable
• Feasible and specific
• Relevant and original

All research questions should be:

• Focused on a single problem or issue
• Researchable using primary and/or secondary sources
• Feasible to answer within the timeframe and practical constraints
• Specific enough to answer thoroughly
• Complex enough to develop the answer over the space of a paper or thesis
• Relevant to your field of study and/or society more broadly

A research aim is a broad statement indicating the general purpose of your research project. It should appear in your introduction at the end of your problem statement , before your research objectives.

Research objectives are more specific than your research aim. They indicate the specific ways you’ll address the overarching aim.

Once you’ve decided on your research objectives , you need to explain them in your paper, at the end of your problem statement .

Keep your research objectives clear and concise, and use appropriate verbs to accurately convey the work that you will carry out for each one.

I will compare …

Your research objectives indicate how you’ll try to address your research problem and should be specific:

Research objectives describe what you intend your research project to accomplish.

They summarize the approach and purpose of the project and help to focus your research.

Your objectives should appear in the introduction of your research paper , at the end of your problem statement .

The main guidelines for formatting a paper in Chicago style are to:

• Use a standard font like 12 pt Times New Roman
• Use 1 inch margins or larger
• Apply double line spacing
• Indent every new paragraph ½ inch
• Include a title page
• Place page numbers in the top right or bottom center
• Cite your sources with author-date citations or Chicago footnotes
• Include a bibliography or reference list

To automatically generate accurate Chicago references, you can use Scribbr’s free Chicago reference generator .

The main guidelines for formatting a paper in MLA style are as follows:

• Use an easily readable font like 12 pt Times New Roman
• Set 1 inch page margins
• Include a four-line MLA heading on the first page
• Center the paper’s title
• Use title case capitalization for headings
• Cite your sources with MLA in-text citations
• List all sources cited on a Works Cited page at the end

To format a paper in APA Style , follow these guidelines:

• Use a standard font like 12 pt Times New Roman or 11 pt Arial
• If submitting for publication, insert a running head on every page
• Apply APA heading styles
• Cite your sources with APA in-text citations
• List all sources cited on a reference page at the end

No, it’s not appropriate to present new arguments or evidence in the conclusion . While you might be tempted to save a striking argument for last, research papers follow a more formal structure than this.

All your findings and arguments should be presented in the body of the text (more specifically in the results and discussion sections if you are following a scientific structure). The conclusion is meant to summarize and reflect on the evidence and arguments you have already presented, not introduce new ones.

The conclusion of a research paper has several key elements you should make sure to include:

• A restatement of the research problem
• A summary of your key arguments and/or findings
• A short discussion of the implications of your research

Don’t feel that you have to write the introduction first. The introduction is often one of the last parts of the research paper you’ll write, along with the conclusion.

This is because it can be easier to introduce your paper once you’ve already written the body ; you may not have the clearest idea of your arguments until you’ve written them, and things can change during the writing process .

The way you present your research problem in your introduction varies depending on the nature of your research paper . A research paper that presents a sustained argument will usually encapsulate this argument in a thesis statement .

A research paper designed to present the results of empirical research tends to present a research question that it seeks to answer. It may also include a hypothesis —a prediction that will be confirmed or disproved by your research.

The introduction of a research paper includes several key elements:

• A hook to catch the reader’s interest
• Relevant background on the topic
• Details of your research problem

and your problem statement

• A thesis statement or research question
• Sometimes an overview of the paper

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2 2. Starting your research project

Chapter outline.

• Choosing a research topic (10 minute read time)
• Your research proposal (14 minute read time)
• Practical and ethical considerations (14 minute read time)
• Raw data (10 minute read time)
• Critical considerations (5 minute read time)

Content warning: Examples in this chapter discuss substance use disorders, mental health disorders and therapies, obesity, poverty, gun violence, gang violence, school discipline, racism and hate groups, domestic violence, trauma and triggers, incarceration, child neglect and abuse, bullying, self-harm and suicide, racial discrimination in housing, burnout in helping professions, and sex trafficking of indigenous women.

2.1 Choosing a research topic

Learning Objectives

Learners will be able to…

• Brainstorm topics you may want to investigate as part of a research project
• Explore your feelings and existing knowledge about the topic
• Develop a working question

Research methods is a unique class in that you get to decide what you want to learn about. Perhaps you came to your MSW program with a specific issue you were passionate about. In my MSW program, I wanted to learn about the best interventions to use with people who have substance use disorders. This was in line with my future career plans, which included working in a clinical setting with clients with co-occurring mental health and substance use issues.  I suggest you start by thinking about your future practice goals and create a research project that addresses a topic that represents an area of social work you are passionate about.

For those of you without a specific direction, don’t worry. Many people enter their MSW program without an exact topic in mind they want to study.  Throughout the program, you will be exposed to different populations, theories, practice interventions, and policies that will spark your interest. Think back to papers you enjoyed researching and writing in other classes. You may want to continue studying the same topic.  Research methods will enable you to gain a deeper, more nuanced understanding of a topic or issue. If you haven’t found an interesting topic yet, here are some other suggestions for seeking inspiration for a research project:

• If you already have practice experience in social work through employment, an internship, or volunteer work, think about practice issues you noticed in the placement.  Do you have any idea of how to better address client needs?  Do you need to learn more about existing interventions or the programs that fund your agency?  Use this class as an opportunity to engage with your previous field experience in greater detail.  Begin with “what” and “why” questions and then expand on those. For example, what are the most effective methods of treating severe depression among a specific population? Or why are people receiving food assistance more likely to be obese?  
• You could also a sk a professor at your school about possible topics.  Read departmental information on faculty research interests, which may surprise you.  Most departmental websites post the curriculum vitae (CV) of faculty, which lists their publications, credentials, and interests.  For those of you interested in doctoral study, this process is particularly important.  Students often pick schools based on professors they want to learn from or research programs they want to join.  

Once you have a potential idea, start reading!  A simple Google search should bring you some basic information about your topic.  News articles can reveal new or controversial information.  You may also want to identify and browse journals related to your research interests. Faculty and librarians can help you identify relevant journals in your field and specific areas of interest.  We’ll also review more detailed strategies for searching the literature in Chapter 3.  As you read, look for what’s missing. These may be “gaps in the literature” that you might explore in your own study.

It’s a good idea to keep it simple when you’re starting your project. Choose a topic that can be easily defined and explored. Your study cannot focus on everything that is important about your topic. A study on gun violence might address only one system, for example schools, while only briefly mentioning other systems that impact gun violence. That doesn’t mean it’s a bad study! The sooner you can arrive at something specific and clear that you want to study, the better off your project will be.

Writing a working question

There are lots of great research topics. Perhaps your topic is a client population—for example, youth who identify as LGBTQ+ or visitors to a local health clinic. In other cases, your topic may be a social problem, such as gang violence, or a social policy or program, such as zero-tolerance policies in schools. Alternately, maybe there are interventions such as dialectical behavioral therapy or applied behavior analysis that interest you.

Whatever your topic idea, begin to think about it in terms of a question. What do you really want to know about the topic? As a warm-up exercise, try dropping a possible topic idea into one of the blank spaces below. The questions may help bring your subject into sharper focus and bring you closer towards developing your topic.

• What does ___ mean?
• What are the causes of ___?
• What are the consequences of ___?
• What are the component parts of ___?
• How does ___ impact ___?
• What is it like to experience ___?
• What is the relationship between _____ and the outcome of ____?
• What case can be made for or against ___?
• What are the risk/protective factors for ___?
• How do people think about ___?

Take a minute right now and write down a question you want to answer. Even if it doesn’t seem perfect, it is important to start somewhere. Make sure your research topic is relevant to social work. You’d be surprised how much of the world that encompasses. It’s not just research on mental health treatment or child welfare services. Social workers can study things like the pollution of irrigation systems and entrepreneurship in women, among other topics. The only requirement is your research must inform action to fight social problems faced by target populations.

Because research is an iterative process , one that you will revise over and over, your question will continue to evolve.  As you progress through this textbook, you’ll learn how to refine your question and include the necessary components for proper qualitative and quantitative research questions. Your question will also likely change as you engage with the literature on your topic. You will learn new and important concepts that may shift your focus or clarify your original ideas.  Trust that a strong question will emerge from this process. A good researcher must be comfortable with altering their question as a result of scientific inquiry.

Very often, our students will email me in the first few weeks of class and ask if they have a good research topic. We love student emails! But just to reassure you if you’re about to send a panicked email to your professor, as long as you are interested in dedicating a semester or two learning about your topic, it will make a good research topic. That’s why we would advise you to focus on how much you like this topic, so that three months from now you are still motivated to complete your project.

How do you feel about your topic?

Now that you have an idea of what you might want to study, it’s time to consider what you think and feel about that topic. Your motivation for choosing a topic does not have to be objective. Because social work is a value-based profession, scholars often find themselves motivated to conduct research that furthers social justice or fights oppression. Just because you think a policy is wrong or a group is being marginalized, for example, does not mean that your research will be biased. It means you must understand what you feel, why you feel that way, and what would cause you to feel differently about your topic.

Start by asking yourself how you feel about your topic.  Sometimes the best topics to research are those about which you feel strongly. What better way to stay engaged with your research project than to study something you are passionate about? However, you must be able to accept that people may have a different perspective, and you must represent their viewpoints fairly in the research report you produce. If you feel prepared to accept all findings, even those that may be unflattering or distinct from your personal perspective, then perhaps you should begin your research project by intentionally studying a topic about which you have strong feelings.

Kathleen Blee (2002) [1] has taken this route in her research. Blee studies groups whose racist ideologies may be different than her own. You can listen to her lecture Women in Organized Racism that details some of her findings. Her scientific research is so impactful because she was willing to report her findings and observations honestly, even those contrary to her beliefs and feelings. If you believe that you may have personal difficulty sharing findings with which you disagree, then you may want to study a different topic. Knowing your own hot-button issues is an important part of self-knowledge and reflection in social work, and there is nothing wrong with avoiding topics that are likely to cause you unnecessary stress.

Social workers often use personal experience as a starting point to identify topics of interest. As we’ve discussed here, personal experience can be a powerful motivator to learn more about a topic. However, social work researchers should be mindful of their own mental health during the research process. A social worker who has experienced a mental health crisis or traumatic event should approach researching related topics cautiously. There is no need to trigger yourself or jeopardize your mental health for a research project. For example, a student who has just experienced domestic violence may want to know about Eye Movement Desensitization and Reprocessing (EMDR) therapy. While the student might gain some knowledge about potential treatments for domestic violence, they will likely have to read through many stories and reports about domestic violence as part of the research process. Unless the student’s trauma has been processed in therapy, conducting a research project on this topic may negatively impact the student’s mental health.

What do you think about your topic?

Once you figure out what you feel about your topic, consider what you think about it. There are many ways we know what we know. Perhaps your mother told you something is so. Perhaps it came to you in a dream. Perhaps you took a class last semester and learned something about your topic there. Or you may have read something about your topic in your local newspaper. We discussed the strengths and weaknesses associated with some of these different sources of knowledge in Chapter 1, and we’ll talk about other scientific sources of knowledge in Chapter 3 and 4. For now, take some time to think of everything you know about your topic. Thinking about what you already know will help you identify any biases you may have, and it will help as you begin to frame a question about your topic.

You might consider creating a concept map, just to get your thoughts and ideas on paper and beginning to organize them. Consider this video from the University of Guelph Library (CC-BY-NC-SA 4.0).

Key Takeaways

• You should pick a topic for your research proposal that you are interested in, since you will be working with it for several months.
• Investigate your own feelings and thoughts about a topic, and make sure you can be objective and fair in your investigation.
• Research projects are guided by a working question that develops and changes as you learn more about your topic.

Just as a reminder, exercises are designed to help you create your individual research proposal. We designed these activities to break down your proposal into small but manageable chunks. We suggest completing each exercise so you can apply what you are learning to your individual research project, as the exercises in each section and each chapter build on one another.

If you haven’t done so already, you can download this chapter’s exercises or the entire workbook in Google Drive. You might also create a document in a word processor on your computer or in a written notebook with your answers to each exercise.

Brainstorm at least 4-5 topics of interest to you and pick the one you think is the most promising for a research project.

• For your chosen topic, outline what you currently know about the topic and your feelings towards the topic. Make sure you are able to be objective and fair in your research.
• Formulate at least one working question to guide your inquiry.  It is common for topics to change and develop over the first few weeks of a project, but think of your working question as a place to start.

2.2 Your research proposal

• Describe the stages of a research project
• Define your target population and describe how your study will impact that population
• Identify the aim of your study
• Classify your project as descriptive, exploratory, explanatory, or evaluative

Most research methods courses are designed to help students propose a research project. But what is a research project? Figure 2.1 indicates the steps of the research project. Right now, we are in the top right corner, using your informal observations from your practice experience and lived experience to form a working draft of your research question. In the next two chapters, you’ll learn how to find and evaluate scholarly literature on your topic. After thoroughly evaluating the literature, you’ll conceptualize an empirical study based on a research question you create. In many courses, students will have to carry out these designs, and in so doing, their conclusions make a contribution to the research literature in their topic area.

The subtitle of this book is “a project-based approach” because the authors’ courses use this approach. In an introductory research methods course, students often have to create a research proposal followed by a more advanced research class in which they conduct quantitative and qualitative data analysis. The research proposal , is a document produced by researchers that reviews the literature relevant to their topic and describes the methods they will use to conduct their study. Part 1 of this textbook is designed to help you with your literature review. Parts 2-4 are designed to help you figure out which methods you will use in your study.

Parts 3 and 4 should also help you conduct the study you propose to do, analyze your data (though you will probably need additional resources for that), and share it as part of the body of social science literature on your topic. Check with your professor on whether you are required to carry out the project you propose to do in your research proposal. Some of you may be off the hook! But for many of you, this book is designed to help you find a reasonable and practical project for you to complete, moving through all of the steps in Figure 2.1.

A research proposal is focused on a question. Right now, this is your working question from Section 2.1. If you haven’t created one yet, this is a good time to pause and complete the exercises from section 2.1. [2] It is likely you will revise your working question many times as you read more literature about your topic. Consider yourself in the cycle between (re)creating your research question and reviewing the research literature for Part 1 of the textbook.

Student research proposals

Student research projects are a big undertaking, but they are well within your capability as a graduate student.  Let’s start with the research proposal.  Think about the research proposal as a communication device.  You are telling the reader (your professor, usually) everything they need to know in order to understand your topic and the study you plan to do. You are also demonstrating to the reader that you are competent and informed enough to conduct the study.

You can think of a research proposal like creating a recipe.  If you are a chef trying to cook a new dish from scratch, you would probably start by looking at other recipes.  You might cook a few of them and come up with ideas about how to create your own version of the dish.  Writing your recipe is a process of trial and error, and you will likely revise your proposal many times over the course of the semester.  This textbook and workbook are designed to get you working on your project little by little, so that by the time you turn in your final research proposal, you’ll be confident it represents the best way to answer your question. Of course, like with any time I cook, you never quite know how it will turn out.

Is writing a research proposal a useful skill for a social worker? On one hand, you probably won’t be writing research proposals for a living. But the same structure of a research proposal (literature review + methods) is used in grant applications. Writing proposals is often a part of practice, particularly in agency-based and policy practice.  Instead of finding a gap in the literature to study, practitioners write grant proposals describing a program they will use to address an issue in their community, as well as the research methods they will use to evaluate whether it worked (see Chapter 23 for more details).  Similarly, a policy advocate or public administrator might sketch out a proposed program and its evaluation as part of a proposal.  Proposal writing may differ somewhat in practice, but the general idea is the same.

Focusing your project

Based on your work in Section 2.1, you should have a working question—a place to start.  Think about what you hope to accomplish with your study.  This is the aim of your research project.  Often, social work researchers begin with a target population in mind.  As you will recall from section 1.4, social work research is research  for action .  Social workers engage in research to help people.  Think about your working question.  Why do you want to answer it?  What impact would answering your question have?

In my MSW program, I began my research by looking at ways to intervene with people who have substance use disorders.  My foundation year placement was in an inpatient drug treatment facility that used 12-step facilitation as its primary treatment modality.  I observed that this approach differed significantly from others I had been exposed to, especially the idea of powerlessness over drugs and drug use.  My working question started as “what are the alternatives to 12-step treatment for people with substance use issues and are they more effective?”  The aim of my project was to determine whether different treatment approaches might be more effective, and I suspected that self-determination and powerlessness were important.

It’s important to note that my working question contained a target population —people with substance use disorders.  A target population is the group of people that will benefit the most.  I envisioned I would help the field of social work to think through how to better meet clients where they were at, specific to the problem of substance use.  I was studying to be a clinical social worker, so naturally, I formulated a micro-level question.  Yet, the question also has implications for meso- and macro-level practice.  If other treatment methods are more effective than 12-step facilitation, then we should direct more public money towards providing more effective therapies for people who use substances. We may also need to train the substance use professionals to use new treatment methodologies.

• Is it more oriented towards micro, meso, or macro-level practice?
• What implications would answering your question have at each level of the ecosystem?

Asking yourself whether your project is more micro, meso, or macro is a good check to see if your project is well-focused. A project that seems like it could be all of those might have too many components or try to study too much. Consider identifying one ecosystemic level your project will focus on, and you can interpret and contextualize your findings at the other levels of analysis.

Exploration, description, and explanation

Social science is a big place. Looking at the various empirical studies in the literature, there is a lot of diversity—from focus groups with clients and families to multivariate statistical analysis of large population surveys conducted online. Ultimately, all of social science can be described as one of three basic types of research studies. As you develop your research question, consider which of the following types of research studies fits best with what you want to learn about your topic. In subsequent chapters, we will use these broad frameworks to help craft your study’s final research question and choose quantitative and qualitative research methods to answer it.

Exploratory research

Researchers conducting  exploratory research are typically at the early stages of examining their topics. Exploratory research projects are carried out to test the feasibility of conducting a more extensive study and to figure out the “lay of the land” with respect to the particular topic. Usually, very little prior research has been conducted on this topic. For this reason, a researcher may wish to do some exploratory work to learn what method to use in collecting data, how best to approach research subjects, or even what sorts of questions are reasonable to ask.

Often, student projects begin as exploratory research.  Because students don’t know as much about the topic area yet, their working questions can be general and vague.  That’s a great place to start!  An exploratory question is great for delving into the literature and learning more about your topic.  For example, the question “what are common social work interventions for parents who neglect their children?” is a good place to start when looking at articles and textbooks to understand what interventions are commonly used with this population.  However, it is important for a student research project to progress beyond exploration unless the topic truly has very little existing research. 

In my classes, I often read papers where students say there is not a lot of literature on a topic, but a quick search of library databases shows a deep body of literature on the topic. The skills you develop in Chapter 3 and 4 should assist you with finding relevant research, and working with a librarian can definitely help with finding information for your research project. That said, there are a few students each year who pick a topic for which there is in fact little existing research. Perhaps, if you were looking at child neglect interventions for parents who identify as transgender or parents who are refugees from the Syrian civil war, less would be known about child neglect for those specific populations. In that case, an exploratory design would make sense as there is little, if any, literature about your specific topic.

Descriptive research

Another purpose of a research project is to describe or define a particular phenomenon. This is called descriptive research . For example, researchers at the Princeton Review conduct descriptive research each year when they set out to provide students and their parents with information about colleges and universities around the United States. They describe the social life at a school, the cost of admission, and student-to-faculty ratios (to name just a few of the categories reported).  If our topic were child neglect, we might seek to know the number of people arrested for child neglect in our community and whether they are more likely to have other problems, such as poverty, mental health issues, or substance use.

Social workers often rely on descriptive research to tell them about their service area. Keeping track of the number of parents receiving child neglect interventions, their demographic makeup (e.g., race, sex, age), and length of time in care are excellent examples of descriptive research. On a more macro-level, the Centers for Disease Control provides a remarkable amount of descriptive research on mental and physical health conditions. In fact, descriptive research has many useful applications, and you probably rely on such findings without realizing you are reading descriptive research.

Explanatory research

Lastly, social work researchers often aim to explain why particular phenomena operate in the way that they do. Research that answers “why” questions is referred to as explanatory research . Asking “why” means the researcher is trying to identify cause-and-effect relationships in their topic.  For example, explanatory research may try to identify risk and protective factors for parents who neglect their children.  Explanatory research may attempt to understand how religious affiliation impacts views on immigration, for example. All explanatory research tries to study cause-and-effect relationships between two or more variables. A specific offshoot of explanatory research that comes up often is evaluation research , which investigates the impact of an intervention, program, or policy on a group of people.  Evaluation research is commonly practiced in agency-based social work settings, and Chapter 23 discusses some of the basics for conducting a program evaluation.

There are numerous examples of explanatory social scientific investigations. For example, Dominique Simons and Sandy Wurtele (2010) [3] sought to understand whether receiving corporal punishment from parents led children to turn to violence in solving their interpersonal conflicts with other children. In their study of 102 families with children between the ages of 3 and 7, the authors found that experiencing frequent spanking did in fact result in children being more likely to accept aggressive problem-solving techniques. Another example of explanatory research can be seen in Robert Faris and Diane Felmlee’s (2011) [4] research study on the connections between popularity and bullying. From their study of 8th, 9th, and 10th graders in nineteen North Carolina schools, they found that aggression increased as adolescents’ popularity increased. [5]

• Think back to your working question from section 2.1. Which type of research—exploratory, descriptive, or explanatory—best describes your working question?
• Try writing a question about your topic that fits with each type of research.

Important things are more rewarding to do

Another consideration in starting a research project is whether the question is important enough to answer. For the researcher, answering the question should be important enough to put in the effort and time required to complete a research project. As we discussed in section 2.1, you should choose a topic that is important to you—one you wouldn’t mind learning about for at least a few months, if not a few years. Time is your most precious resource as a student. Make sure you dedicate it to topics and projects you consider genuinely important.

Your research question should also be contribute to the larger expanse of research in that area. For example, if your research question is “does cognitive behavioral therapy (CBT) effectively treat depression?” you are a few decades late to be asking that question. Hundreds of scientists have published articles demonstrating its effectiveness in treating depression. However, a student interested in learning more about CBT can still find new areas to research. Perhaps there is a new population—for example, older adults in a nursing home—or a new problem—like mobile phone addiction—for which there is little research on the impact of CBT.

Your project contribute something new to social science.  It should address a gap in what we know and what is written in the literature. This can seem intimidating for students whose projects involve learning a totally new topic. How could I add something new when other researchers have studied this for decades? Trust us, by thoroughly reviewing the existing literature, you can find new and unresolved research questions to answer.  Google Scholar’s motto at the bottom of their search page is “stand on the shoulders of giants.” Social science research rests on the work of previous scholars, and builds off of what they discovered to learn more about the social world. Ensure that your question will bring our scientific understanding of your topic to new heights.

Finally, your research question should be of import to the social world. Social workers conduct research on behalf of individuals, groups, and communities to promote change as part of their mission to advance human rights and further social and economic justice. Your research should matter to the people you are trying to help.  Your research project should aim to improve the lives of people in your target population by helping the world understand their needs more holistically.

Research projects, obviously, do not need to address all aspects of a problem. As social workers, our goal in enacting social justice isn’t to accomplish it all in one semester (or even one lifetime). Our goal is to move the world in the right direction and make small, incremental progress.  I encourage all students to think about how they will make their work accessible and relevant to the broader public and use their results to promote change.  

• Research exists in a cycle. Your research project will follow this cycle, beginning from reading literature (where you are now), to proposing a study, to completing a research project, and finally, to publishing the results.
• Social work researchers should identify a target population and understand how their project will impact them.
• Research projects can be exploratory, descriptive, evaluative, or a combination therein. While you are likely still exploring your topic, you may settle on another type of research, particularly if your topic has been previously addressed extensively in the literature.
• Your research project should be important to you, fill a gap or address a controversy in the scientific literature, and make a difference for your target population and broader society.
• State why your working question is an important one to answer, keeping in mind that your statement should address the scientific literature, target population, and the social world.

2.3 Practical and ethical considerations

• Identify potential stakeholders and gatekeepers
• Differentiate between raw data and the results of scientific studies
• Evaluate whether you can feasibly complete your project

Are you interested in better understanding the day-to-day experiences of maximum security prisoners? This sounds fascinating, but unless you plan to commit a crime that lands you in a maximum security prison, gaining access to that particular population would be difficult for a graduate student project. While the topics about which social work questions can be asked may seem limitless, there are limits to which aspects of topics we can study or at least to the ways we can study them.  This is particularly true for student research projects.

Feasibility refers to whether you can practically conduct the study you plan to do, given the resources and ethical obligations you have. In this section, we assume that you will have to actually conduct the research project that you write about in your research proposal. It’s a good time to check with your professor about your program’s expectations for student research projects. For students who do not have to carry out their projects, feasibility is less of a concern because, well, you don’t actually have to carry out your project. Instead, you’ll propose a project that could work in theory. However, for students who have to carry out the projects in their research proposals, feasibility is incredibly important. There are important practical and ethical considerations student researchers should start thinking about from the beginning of a research project.

Access, consent, and ethical obligations

One of the most important feasibility issues is gaining access to your target population. For example, let’s say you wanted to better understand middle-school students who engaged in self-harm behaviors.  That is a topic of social importance, so why might it make for a difficult student project?  Let’s say you proposed to identify students from a local middle school and interview them about self-harm.  Methodologically, that sounds great.  But practically, that sounds challenging. Think about the ethical obligations a social worker has to practice with adolescents who are engaging in self-harm (e.g., competence, respect). In research, we are concerned mostly with the benefits and harms of what you propose to do as well as the openness and honesty you

Gatekeepers

If you were the principal at your local middle school, would you allow an MSW student to interview kids in your schools about self-harm? What if the results of the study showed that self-harm was a big problem that your school was not addressing?  What if the researcher’s interviews led to an increase in self-harming behaviors among the children?  The principal in this situation is a gatekeeper .  Gatekeepers are the individuals or organizations who control access to the population you want to study.  The school board would also likely need to give consent for the research to take place at their institution. Gatekeepers must weigh these ethical questions because they have a responsibility to protect the safety of the people at their organization, just as you have an ethical obligation to protect the people in your research study.

For student projects, it can be a challenge to get consent from gatekeepers to conduct your research project. As a result, students often conduct research projects at their place of employment or field work, as they have established trust with gatekeepers in those locations.  I’m still doubtful an MSW student interning at the middle school would be able to get consent for this study, but they probably have a better chance than a researcher with no relationship to the school.  In the case where the population (children who self-harm) are too vulnerable, student researchers may collect data from people who have secondary knowledge about the topic.  For example, the principal may be more willing to let you talk to teachers, rather than children.  I commonly see student projects that focus on studying practitioners rather than clients for this reason.

Stakeholders

In some cases, researchers and gatekeepers partner on a research project.  When this happens, the gatekeepers become stakeholders .  Stakeholders are individuals or groups who have an interest in the outcome of the study you conduct. As you think about your project, consider whether there are formal advisory groups or boards (like a school board) or advocacy organizations who already serve or work with your target population.  Approach them as experts an ask for their review of your study to see if there are any perspectives or details you missed that would make your project stronger.

There are many advantages to partner your research with stakeholders. As an example, in order to obtain access to interview children at this middle school, you will have to consider other stakeholders’ goals. School administrators also want to help students struggling with self-harm, so they may want to use the results to form new programs. But they may also need to avoid scandal and panic if the results show high levels of self-harm. Most likely, they want to provide support to students without making the problem worse.  By bringing in school administrators as stakeholders, you can better understand what the school is currently doing to address the issue and get an informed perspective on your project’s questions.  Negotiating the boundaries of a stakeholder relationship requires strong meso-level practice skills.

Of course, partnering with administrators probably sounds quite a bit easier than bringing on board the next group of stakeholders—parents.  It’s not ethical to ask children to participate in a study without their parents’ consent.  We will review the parameters of parental and child consent in Chapter 8.  Parents may be understandably skeptical of a researcher who wants to talk to their child about self-harm, and they may fear potential harms to the child and family from your study. Would you let a researcher you didn’t know interview your children about a very sensitive issue?

Social work research must often satisfy multiple stakeholders.  This is especially true if a researcher receives a grant to support the project, as the funder has goals it wants to accomplish by funding the research project.  Your MSW program and university are also stakeholders in your project.  When you conduct research, it reflects on your school.  If you discover something of great importance, your school looks good.  If you harm someone, they may be liable.  Your school also provides you with support through instruction and access to resources like the library and data analysis software.

Target population

So far, we’ve talked about access in terms of gatekeepers and stakeholders.  Let’s assume all of those people agree that your study should proceed.  But what about the people in the target population?  They are the most important stakeholder of all!  Think about the children in your proposed study on self-harm.  How open do you think they would be to talking to you about such a sensitive issue?  Would they consent to talk to you at all?

Maybe you are thinking about simply asking clients on your caseload. As we talked about before, leveraging existing relationships created through field work can help with accessing your target population.  However, they introduce other ethical issues for researchers.  Asking clients on your caseload or at your agency to participate in your project creates a dual relationship between you and your client.  What if you learn something in the research project that you want to share with your clinical team?  More importantly, would your client feel uncomfortable if they do not consent to your study?  Social workers have power over clients, and any dual relationship would require strict supervision in the rare case it was allowed.

Resources and scope

Let’s assume everyone consented to your project and you have adequately addressed any ethical issues with gatekeepers, stakeholders, and your target population. That means everything is ready to go, right? Not quite yet. As a researcher, you will need to carry out the study you propose to do. Depending on how big or how small your proposed project is, you’ll need a little or a lot of resources. Generally, student projects should err on the side of small and simple. We will discuss the limitations of this advice in section 2.5.

One thing that all projects need is raw data . It’s extremely important to note that raw data is not just the information you read in journal articles and books. Every year, I get at least one student research proposal that simply proposes to read articles. It’s a very understandable mistake to make. Most graduate school assignments are simply to read about a topic and write a paper. A research project involves doing the same kind of research that the authors of journal articles do when they conduct quantitative or qualitative studies. The raw data that is often a part of student projects are the results of a survey they give to participants or transcripts of interviews and focus groups.

Some social work researchers do not collect raw data of their own, but instead use secondary data analysis to analyze raw data that has been shared by other researchers. One common source of raw data in student projects from their internship or employer. By looking at client charts or data from previous grant reports or program evaluations, you can use raw data already collected by your agency to answer your research question. Whether a researcher should use secondary data or collect their own raw data is an important choice which we will discuss in greater detail in section 2.4. Nevertheless, without raw data there can be no research project. Reading the literature about your topic is only the first step in a research project.

Time is a student’s most precious resource.  MSW students are overworked and underpaid, so it is important to be upfront with yourself about the time needed to answer your question.  Every hour spent on your research project is not spent doing other things.  Make sure that your proposal won’t require you to spend years collecting and analyzing data.  Think realistically about the timeline for this research project. If you propose to interview fifty mental health professionals in their offices in your community about your topic, make sure you can dedicate fifty hours to conduct those interviews, account for travel time, and think about how long it will take to transcribe and analyze those interviews.

• What is reasonable for you to do over this semester and potentially another semester of advanced research methods?
• How many hours each week can you dedicate to this project considering what you have to do for other MSW courses, your internship and job, as well as family or social responsibilities?

In many cases, focusing your working question on something simple, specific, and clear can help avoid time issues in research projects. Another thing that can delay a research project is receiving approval from the i nstitutional review board (IRB), the research ethics committee at your university. If your study exposes people who participate to potential harm, you may have to formally propose your study to the IRB and get their approval before gathering your data. A well-prepared study is likely to gain IRB approval with minimal revisions needed, but the process can take weeks to complete and must be done before data collection can begin. We will address the ethical obligations of researchers in greater detail in Chapter 8.

Most research projects cost some amount of money, but for student projects, most of that money is already paid.  You paid for access to a university library that provides you with all of the journals, books, and other sources you might need.  You paid for a computer for homework and may use your car to drive to go to class or collect your data.  You paid for this class.  You are not expected to spend any additional money on your student research project.

However, it is always worth looking to see if there are grant opportunities to support student research in your school or program.  Often, these will cover small expenses like travel or incentives for people who participate in the study. Alternately, you could use university grant funds to travel to academic conferences to present on your findings and network with other students, practitioners, and researchers. Chapter 24 reviews academic conferences relevant to social work practice and education with a focus on the United States.

Knowledge, competence, and skills

Another student resource is knowledge. By engaging with the literature on your topic and learning the content in your research methods class, you will learn how to study your topic using social scientific research methods.  The core social work value of competence is key here.  Here’s an example from my work on one of my former university’s research ethics board.  A student from the design department wanted to study suicide by talking to college students in a suicide prevention campus group.  While meeting with the student researcher, someone on the board asked what she would do if one of the students in her study disclosed that they were currently suicidal.  The researcher responded that she never considered that possibility, and that she envisioned a more “fun” discussion.  I hope this example set off alarm bells for you, as it did for the review board.

Clearly, researchers need to know enough about their target population in order to conduct ethical research. Because students usually have little experience in the research world, their projects should pose fewer potential risks to participants. That means posing few, if any, questions about sensitive issues, such as trauma.  A common way around this challenge is by collecting data from less vulnerable populations such as practitioners or administrators who have second-hand knowledge of target populations based on professional relationships.

Knowledge and the social work value of ethical competence go hand in hand.  I see the issue of competence often in student projects if their question is about whether an intervention, for example dialectical behavioral therapy (DBT), is effective.  A student would have to be certified in DBT in order to gather raw data by practicing it with clients and tracking their progress.  That’s well outside the scope of practice competency for an MSW student and better suited to a licensed practitioner. It would be more ethical and feasible for a student researcher to analyze secondary data from a practitioner certified to use DBT or analyze raw data from another researcher’s study.

If your working question asks about which interventions are effective for a problem, don’t panic.  Often questions about effectiveness are good places to start, but the project will have to shift in order be workable for a student.  Perhaps the student would like to learn more about the cost of getting trained in DBT, which aspects of it practitioners find the most useful, whether insurance companies will reimburse for it, or other topics that require fewer resources to answer.  In the process of investigating a smaller project like this, you will learn about the effectiveness of DBT by reading the scholarly literature but the actual research project will be smaller and more feasible to conduct as a student.

Another idea to keep in mind is the level of data collection and analysis skills you will gain during your MSW program.  Most MSW programs will seek to give you the basics of quantitative and qualitative research. However, there are limits to what your courses will cover just as there are limits to what we could include in this textbook.  If you feel your project may require specific education on data collection or analysis techniques, it’s important to reach out to your professor to see if it is feasible for you to gain that knowledge before conducting your study.  For example, you may need to take an advanced statistics course or an independent study on community-engaged research in order to competently complete your project.

In summary, here are a few questions you should ask yourself about your project to make sure it’s feasible.  While we present them early on in the research process (we’re only in Chapter 2), these are certainly questions you should ask yourself throughout the proposal writing process. We will revisit feasibility again in Chapter 7 when we work on finalizing your research question.

• Do you have access to the data you need or can you collect the data you need?
• Will you be able to get consent from stakeholders, gatekeepers, and your target population?
• Does your project pose risk to individuals through direct harm, dual relationships, or breaches in confidentiality?
• Are you competent enough to complete the study?
• Do you have the resources and time needed to carry out the project?
• People will have to say “yes” to your research project. Evaluate whether your project might have gatekeepers or potential stakeholders. They may control access to data or potential participants.
• Researchers need raw data, which may include raw bits of information such as survey responses, interview transcripts, or client charts. Your research project must involve more than looking at the analyses conducted by other researchers, as the literature review is only the first step of a research project.
• Make sure you have enough resources (time, money, and knowledge) to complete your research project during your MSW program.
• Identify any gatekeepers and stakeholders.
• Do you think it is likely you will get access to the people or records you need for your study?
• Would the benefits of your study outweigh the risks?

2.4 Raw data

• Identify potential sources of available data
• Weigh the challenges and benefits of collecting your own data

In our previous section, we addressed some of the challenges researchers face in collecting and analyzing raw data. Just as a reminder, raw data are unprocessed, unanalyzed data that researchers analyze using social science research methods. It is not just the statistics or qualitative themes provided in journal articles, but the actual data from which those statistics or themes are derived (e.g., interview transcripts or survey responses).

There are two approaches to getting raw data. First, students can analyze data that are publicly available or from agency records. Using secondary data like this can make projects more feasible, but you may not find existing data that are useful for answering your working question. For that reason, many students gather their own raw data. As we discussed in the previous section, potential harms that come from addressing sensitive topics mean that surveys and interviews of practitioners or other less-vulnerable populations may be the most feasible and ethical way to approach data collection.

Using secondary data

Within the agency setting, there are two main sources of raw data.  One option is to examine client charts.  For example, if you wanted to know if substance use was related to parental reunification for youth in foster care, you could look at client files and compare how long it took for families with differing levels of substance use to be reunified.  You will have to negotiate with the agency the degree to which your analysis can be public. Agencies may be okay with you using client files for a class project but less comfortable with you presenting your findings at a city council meeting. When analyzing data from your agency, you will have to manage a stakeholder relationship.

Another great example from my class this year was a student who used existing program evaluations at their agency as raw data in her student research project.  If you are practicing at a grant funded agency, administrators and clinicians are likely producing data for grant reporting.  Your agency may consent to have you look at the raw data and run your own analysis.  Larger agencies may also conduct internal research—for example, surveying employees or clients about new initiatives.  These, too, can be good sources of available data.  Generally, if your agency has already collected the data, you can ask to use them.  Again, it is important to be clear on the boundaries and expectations of your agency.  And don’t be angry if they say no!

Some agencies, usually government agencies, publish their data in formal reports.  You could take a look at some of the websites for county or state agencies to see if there are any publicly available data relevant to your research topic. As an example, perhaps there are annual reports from the state department of education that show how seclusion and restraint is disproportionately applied to black children with disabilities, as students found in Virginia .  In my class last year, one student matched public data from our city’s map of criminal incidents with historically redlined neighborhoods.  For this project, she is using publicly available data from Mapping Inequality , which digitized historical records of redlined housing communities and the Roanoke, VA crime mapping webpage .  By matching historical data on housing redlining with current crime records, she is testing whether redlining still impacts crime to this day.

Not all public data are easily accessible, though.  The student in the previous example was lucky that scholars had digitized the records of how Virginia cities were redlined by race. Sources of historical data are often located in physical archives, rather than digital archives. If your project uses historical data in an archive, it would require you to physically go to the archive in order to review the data.  Unless you have a travel budget, you may be limited to the archival data in your local libraries and government offices.  Similarly, government data may have to be requested from an agency, which can take time.  If the data are particularly sensitive or if the department would have to dedicate a lot of time to your request, you may have to file a Freedom of Information Act request.  This process can be time-consuming, and in some cases, it will add financial cost to your study.

Another source of secondary data is shared by researchers as part of the publication and review process.  There is a growing trend in research to publicly share data so others can verify your results and attempt to replicate your study.  In more recent articles, you may notice links to data provided by the researcher.  Often, these have been de-identified by eliminating some information that could lead to violations of confidentiality.  You can browse through the data repositories in Table 2.1 to find raw data to analyze.  Make sure that you pick a data set with thorough and easy to understand documentation.

Ultimately, you will have to weigh the strengths and limitations of using secondary data on your own. Engel and Schutt (2016, p. 327) [6] propose six questions to ask before using secondary data:

• What were the agency’s or researcher’s goals in collecting the data?
• What data were collected, and what were they intended to measure?
• When was the information collected?
• What methods were used for data collection? Who was responsible for data collection, and what were their qualifications? Are they available to answer questions about the data?
• How is the information organized (by date, individual, family, event, etc.)? Are identifiers used to indicate different types of data available?
• What is known about the success of the data collection effort? How are missing data indicated and treated? What kind of documentation is available? How consistent are the data with data available from other sources?

In this section, we’ve talked about data as though it is always collected by scientists and professionals.  But that’s definitely not the case!  Think more broadly about sources of data that are already out there in the world.  Perhaps you want to examine the different topics mentioned in the past 10 State of the Union addresses by the President.  One of my students this past semester is examining whether the websites and public information about local health and mental health agencies use gender-inclusive language.  People share their experiences through blogs, social media posts, videos, performances, among countless other sources of data.  When you think broadly about data, you’ll be surprised how much you can answer with available data.

Collecting your own raw data

The primary benefit of collecting your own data is that it allows you to collect and analyze the specific data you are looking for, rather than relying on what other people have shared.  You can make sure the right questions are asked to the right people. For a student project, data collection is going to look a little different than what you read in most journal articles.  Established researchers probably have access to more resources than you do, and as a result, are able to conduct more complicated studies.  Student projects tend to be smaller in scope.  This isn’t necessarily a limitation.  Student projects are often the first step in a long research trajectory in which the same topic is studied in increasing detail and sophistication over time.

Students in my class often propose to survey or interview practitioners.  The focus of these projects should be about the practice of social work and the study will uncover how practitioners understand what they do.  Surveys of practitioners often test whether responses to questions are related to each other.  For example, you could propose to examine whether someone’s length of time in practice was related to the type of therapy they use or their level of burnout.  Interviews or focus groups can also illuminate areas of practice.  A student in my class proposed to conduct focus groups of individuals in different helping professions in order to understand how they viewed the process of leaving an abusive partner.  She suspected that people from different disciplines would make unique assumptions about the survivor’s choices.

It’s worth remembering here that you need to have access to practitioners, as we discussed in the previous section. Resourceful students will look at publicly available databases of practitioners, draw from agency and personal contacts, or post in public forums like Facebook groups.  Consent from gatekeepers is important, and as we described earlier, you and your agency may be interested in collaborating on a project.  Bringing your agency on board as a stakeholder in your project may allow you access to company email lists or time at staff meetings as well as access to practitioners.  One of our students last year partnered with her internship placement at a local hospital to measure the burnout of that nurses experienced in their department.  Her project helped the agency identify which departments may need additional support.

Another possible way you could collect data is by partnering with your agency on evaluating an existing program.  Perhaps they want you to evaluate the early stage of a program to see if it’s going as planned and if any changes need to be made.  Maybe there is an aspect of the program they haven’t measured but would like to, and you can fill that gap for them.  Collaborating with agency partners in this way can be a challenge, as you must negotiate roles, get stakeholder buy-in, and manage the conflicting time schedules of field work and research work.  At the same time, it allows you to make your work immediately relevant to your specific practice and client population.

In summary, many student projects fall into one of the following categories. These aren’t your only options!  But they may be helpful in thinking about what students projects can look like.

• Analyzing chart or program evaluations at an agency
• Analyzing existing data from an agency, government body, or other public source
• Analyzing popular media or cultural artifacts
• Surveying or interviewing practitioners, administrators, or other less-vulnerable groups
• Conducting a program evaluation in collaboration with an agency
• All research projects require analyzing raw data.
• Student projects often analyze available data from agencies, government, or public sources. Doing so allows students to avoid the process of recruiting people to participate in their study.  This makes projects more feasible but comes with some limitations based on the data that are available.
• Student projects should avoid potentially harmful or sensitive topics when surveying or interviewing clients and other vulnerable populations. Since many social work topics are sensitive, students often elect to collect data from less-vulnerable populations such as practitioners and administrators.
• Describe the difference between raw data and the results of research articles.
• Consider browsing around the data repositories in Table 2.1.
• Identify one of the common types of student projects (e.g., surveys of practitioners) and how that might help you answer your working question.

2.5 Critical considerations

• Critique the traditional role of researchers and identify how action research addresses these issues

So far in this chapter, we have presented the steps of student research projects as follows:

• Find a topic that is important to you and read about it.
• Pose a question that is important to the literature and to your community.
• Propose to use specific research methods to answer your question.
• Carry out your project and report the results.

These were depicted in Figure 2.1 earlier in this chapter. There are important limitations to this approach, and this section examines those problems and how to address them.

Whose knowledge is privileged?

First, let’s critically examine your role as the researcher.  Following along with the steps in a research project, you start studying the literature your topic, find a place where you can add to scientific knowledge, and conduct your study.  But why are you the person who gets to decide what is important?  Just as clients are the experts on their lives, members of your target population are the experts on their lives. What does it mean for a group of people to be researched on, rather than researched with?  How can we better respect the knowledge and self-determination of our community members?

A different way of approaching your research project is to start by talking with members of the target population and those who are knowledgeable about that community.  Perhaps there is a community organization you can partner with on a research project.  The researcher’s role in this case would be more similar to a consultant, someone with specialized knowledge about research who can help communities study problems they consider to be important.  The social worker is a co-investigator, and community members are equal partners in the research project.  Each has a type of knowledge—scientific expertise vs. lived experience—that should inform the research process.

The community focus highlights something important about student projects: they are localized.  Student projects can dedicate themselves to issues at a single agency or within a service area.  With a local scope, student researchers can bring about change in their community.  This is the purpose behind action research.

Action research

Action research   is research that is conducted for the purpose of creating social change. When engaging in action research, scholars collaborate with community stakeholders to conduct research that will be relevant to the community. Social workers who engage in action research don’t just go it alone; instead, they collaborate with the people who are affected by the research at each stage in the process. Stakeholders, particularly those with the least power, should be consulted on the purpose of the research project, research questions, design, and reporting of results.

Action research also distinguishes itself from other research in that its purpose is to create change on an individual and community level. Kristin Esterberg puts it quite eloquently when she says, “At heart, all action researchers are concerned that research not simply contribute to knowledge but also lead to positive changes in people’s lives” (2002, p. 137). [7] Action research has multiple origins across the globe, including Kurt Lewin’s psychological experiments in the US and Paulo Friere’s literacy and education programs (Adelman, 1993; Reason, 1994). [8] Over the years, action research has become increasingly popular among scholars who wish for their work to have tangible outcomes that benefit the groups they study.

A traditional scientist might look at the literature or use their practice wisdom to formulate a question for quantitative or qualitative research, as we suggested earlier in this chapter. An action researcher, on the other hand, would consult with people in target population and community to see what they believe the most pressing issues are and what their proposed solutions may be. In this way, action research flips traditional research on its head. Scientists are not the experts on the research topic. Instead, they are more like consultants who provide the tools and resources necessary for a target population to achieve their goals and to address social problems using social science research.

According to Healy (2001), [9] the assumptions of participatory-action research are that (a) oppression is caused by macro-level structures such as patriarchy and capitalism; (b) research should expose and confront the powerful; (c) researcher and participant relationships should be equal, with equitable distribution of research tasks and roles; and (d) research should result in consciousness-raising and collective action. Consistent with social work values, action research supports the self-determination of oppressed groups and privileges their voice and understanding through the conceptualization, design, data collection, data analysis, and dissemination processes of research. We will return to similar ideas in Part 4 of the textbook when we discuss qualitative research methods, though action research can certainly be used with quantitative research methods, as well.

Student projects can make a difference!

One last thing. We’ve told you all to think small and simple with your projects.  The adage that “a good project is a done project” is true.  At the same time, this advice might unnecessarily limit an ambitious and diligent student who wanted to investigate something more complex.  For example, here is a Vice News article about MSW student Christine Stark’s work on sex trafficking of indigenous women.  Student projects have the potential to address sensitive and politically charged topics.  With support from faculty and community partners, student projects can become more comprehensive.  The results of your project should accomplish something.  Social work research is about creating change, and you will find the work of completing a research project more rewarding and engaging if you can envision the change your project will create.

In addition to broader community and agency impacts, student research projects can have an impact on a university or academic program. Consider this resource on how to research your institution by Rine Vieth. As a student, you are one of the groups on campus with the least power (others include custodial staff, administrative staff, contingent and adjunct faculty). It is often necessary that you organize within your cohort of MSW students for change within the program. Not only is it an excellent learning opportunity to practice your advocacy skills, you can use raw data that is publicly available (such as those linked in the guide) or create your own raw data to inform change. The collaborative and transformative focus of student research projects like these can be impactful learning experiences, and students should consider projects that will lead to some small change in both themselves and their communities.

• Traditionally, researchers did not consult target populations and communities prior to formulating a research question. Action research proposes a more community-engaged model in which researchers are consultants that help communities research topics of import to them.
• Just because we’ve advised you to keep your project simple and small doesn’t mean you must do so! There are excellent examples of student research projects that have created real change in the world.
• Apply the key concepts of action research to your project.  How might you incorporate the perspectives and expertise of community members in your project?
• Blee, K. (2002).  Inside organized racism: Women and men of the hate movement . Berkeley, CA: University of California Press; Blee, K. (1991).  Women of the Klan: Racism and gender in the 1920s . Berkeley, CA: University of California Press. ↵
• The exercises we created for this textbook are designed to break down the research proposal into bite-sized chunks. Completing the exercises as you read the textbook helps you apply the knowledge you've gained right away and remember what you thought about concepts you read about a few weeks ago. ↵
• Simons, D. A., & Wurtele, S. K. (2010). Relationships between parents’ use of corporal punishment and their children’s endorsement of spanking and hitting other children. Child Abuse & Neglect, 34 , 639–646. ↵
• Faris, R., & Felmlee, D. (2011). Status struggles: Network centrality and gender segregation in same- and cross-gender aggression. American Sociological Review, 76 , 48–73. The study has also been covered by several media outlets: Pappas, S. (2011). Popularity increases aggression in kids, study finds. Retrieved from:  http://www.livescience.com/11737-popularity-increases-aggression-kids-study-finds.html ↵
• This pattern was found until adolescents reached the top 2% in the popularity ranks. After that, aggression declined. ↵
• Engel, R. J. & Schutt, R. K. (2016). The practice of research in social work (4th ed.). Washington, DC: SAGE Publishing. ↵
• Esterberg, K. G. (2002).  Qualitative methods in social research . Boston, MA: McGraw-Hill. ↵
• Adelman, C. (1993). Kurt Lewin and the origins of action research.  Educational Action Research, 1,  7-24.; Reason, P. (1994).  Participation in human inquiry . London, UK: Sage. ↵
• Healy, K. (2001). Participatory action research and social work: A critical appraisal.  International Social Work, 44 , 93-105. ↵

a nonlinear process in which the original product is revised over and over again to improve it

a document produced by researchers that reviews the literature relevant to their topic and describes the methods they will use to conduct their study

what a researcher hopes to accomplish with their study

the group of people whose needs your study addresses

conducted during the early stages of a project, usually when a researcher wants to test the feasibility of conducting a more extensive study or if the topic has not been studied in the past

research that describes or defines a particular phenomenon

explains why particular phenomena work in the way that they do; answers “why” questions

research that evaluates the outcomes of a policy or program

whether you can practically and ethically complete the research project you propose

whether you can actually reach people or documents needed to complete your project

the people or organizations who control access to the population you want to study

individuals or groups who have an interest in the outcome of the study you conduct

study publicly available information or data that has been collected by another person

research that is conducted for the purpose of creating social change

Graduate research methods in social work Copyright © 2020 by Matthew DeCarlo, Cory Cummings, Kate Agnelli is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License , except where otherwise noted.

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Office of Undergraduate Research

Tips for starting an independent research project.

By Grace Vaidian, Peer Research Ambassador 

Here at UConn, a prevalent avenue for delving into research is to reach out to professors and join their existing projects. While the structure and guidance that this approach offers can be undeniably valuable (it’s how I obtained the research opportunities I’m currently working on!), there are students who feel like they have a brilliant research idea of their own but lack the know-how to bring these projects to life. I’m here to offer some tips on how to initiate and successfully navigate an independent research project.

Where to Begin: Identifying the Knowledge Gap

The first step in embarking on your independent research journey is to pinpoint a gap in knowledge. This is essentially an underexplored area that could greatly benefit from further research and discoveries. For some, this gap might be immediately apparent, but for others, including myself, it might require a bit more digging. One effective way to identify this gap is through a thorough literature review on a topic of interest. Most academic publications include insights into the unanswered questions and areas that warrant further investigation in the discussion or conclusion sections. This is a great starting point for coming up with your own research question. Additionally, this literature review process can give you ideas for a methodology to follow.

Finding a Mentor: A Valuable Guide on Your Journey

I know, the focus of this blog is how to do independent research, so why am I now suggesting finding a mentor? It’s important to recognize that even if you possess extensive knowledge on a particular topic, you’re still a student with much to learn. Having an expert to provide feedback and guidance on your project idea is invaluable and often mandatory to move a project forward. Once you’ve formulated a research question, you should collaborate with faculty or professionals willing to support your future steps. A case in point is a self-initiated project I worked on involving fentanyl overdose deaths. I realized that having open access to autopsy and toxicology reports would be impossible for a 16-year-old. However, by proposing my project idea to a local forensic pathologist and securing her mentorship, I was welcomed into the Medical Examiner’s Office and was able to review the necessary reports. A mentor can play a pivotal role in helping you secure the essential resources for your project.

Crafting Your Project: Defining Goals and Objectives

With your research question in place, it’s time to define your project’s goals. Do you want to be published? Create a product? Enter a competition? With your goals in mind, you can outline your objectives, methods, and create a timeline. At UConn, there are some great programs that support independent research, such as the Holster Scholar Program and the UConn IDEA Grant . As you explore these possibilities, remember to be realistic about the time and resources your project will require.

Taking the Leap: Go for It!

Independent research projects offer a unique opportunity to delve into your passions, build critical thinking skills, and contribute to new discoveries. The journey may be challenging, but the knowledge and skills you acquire are invaluable. Throughout the process, remember to enjoy the journey. I wish you the best of luck on your independent research adventure!

Grace is a senior double majoring in Molecular & Cell Biology and Drugs, Disease, and Illness (Individualized Major).  Click here  to learn more about Grace. 

How to Plan and Conduct a Research Project: 12 Simple Steps

Let’s have a brief and clear discussion on what we should do for achieving success in our research project.

Well! For planning and conduction we have to go through following steps.

1. Topic selection

Many of us have a clear research topic of mind but some are also there who come up with various ideas. When we are in pressure, we often get panicked and anxious, therefore we should select topic well before time by following ways.

2. Discussing with others: We should discuss with others (e.g., friends, lab mates, seniors, teachers and colleagues) about what they are mostly considering, what is sparking interest in us and whatever question arises we should freely discuss with others as their suggestions and comments will help us in refining our focus.

3. Having a look on other writings or previous people research topics:  Books and journals are major sources of ideas. We can spend some time in library and get some idea on title of other research paper of recent years, or we can go through previous people research projects. Similar studies have also been published in journals. Those articles we have to collect and plan how to make a difference.

Now-a-days many things are available online from internet. Websites like  Google ,  PubMed ,  Scopus ,  Science Direct  and others are some of the best learning sources and provides latest information of research. We can search many related topics and finalize a plan.

4. Considering our own interest:  Final and the vital point is considering our own interest like is giving us more interest. We can focus on that to find out whether that is covered in the syllabus. We should remain extra critical while choosing a topic so that we can find out which thing needs some extra studies. While choosing a topic certain points we should keep in mind like a research study can duplicate of already existing study in a completely different manner, extension of existing study, exploring the unexplored part, reviewing the knowledge in s particular field, application of theoretical idea to a real world problem.

5. Developing a research question

Once topic selection is done and it is accepted by department, we should start focusing on refining the topic and finding something like

• Issue for investigating
• What we want to prove, disapprove or discover
• Research limitations

6. Effectual planning of the research

Well!  Research proposal  is the detailed explanation of the whole project that we are going to conduct. It is like a formal need. It should include your thinking about the research problem, all discussions with your guide and all initial findings on the topic.

This step will include strategies to manage the time and how effectively we carry out all tasks. A plan should be made in such a way that it should allocate required time for each and every task. For this we have to see how much total time we have and accordingly we will divide time for each task. It is vital to remain as much realistic as we can about the timing each task will take. The more focused we will remain at the planning stage the more hours we can save while carrying out task. Better to note down about all the resources we need in each stage like how much time we should spend in  library , working hours, equipment lists, space required etc.

It is one of the common problems while conducting research and we should remain well prepared for it. For  several reasons people procrastinate  like for improper management of time, dauted by scale of the work, motivation loss, perfectionism, negative thoughts and many more. When we recognize these problems early, it will help us in minimizing it to larger extent. To avoid we should be realistic about when we should start, devote more time for planning and revising the research plan, allocation of proper time, highly focused etc.

Early identification of the signs of procrastination will give you the best chance of minimizing any negative effects. Once you suspect that you are procrastinating, it can be helpful to review what you are expecting of yourself, and check that those expectations are realistic. This is where planning is vital. After a research plan is made it is a better idea to show it to some other people of our team or our teachers/guides, who can help us in finding out some missing tasks, or some mistakes.

Conducting Research

After the planning stage is over now comes the time to conduct the research. Here also we should remain highly organized and methodical to achieve success. Let’s have a discussion on each step.

6 thoughts on “How to Plan and Conduct a Research Project: 12 Simple Steps”

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The critical steps for successful research: The research proposal and scientific writing: (A report on the pre-conference workshop held in conjunction with the 64 th annual conference of the Indian Pharmaceutical Congress-2012)

Pitchai balakumar.

Pharmacology Unit, Faculty of Pharmacy, AIMST University, Semeling, 08100 Bedong. Kedah Darul Aman, Malaysia

Mohammed Naseeruddin Inamdar

1 Department of Pharmacology, Al-Ameen College of Pharmacy, Bengaluru, Karnataka, India

Gowraganahalli Jagadeesh

2 Division of Cardiovascular and Renal Products, Center for Drug Evaluation and Research, US Food and Drug Administration, Silver Spring, USA

An interactive workshop on ‘The Critical Steps for Successful Research: The Research Proposal and Scientific Writing’ was conducted in conjunction with the 64 th Annual Conference of the Indian Pharmaceutical Congress-2012 at Chennai, India. In essence, research is performed to enlighten our understanding of a contemporary issue relevant to the needs of society. To accomplish this, a researcher begins search for a novel topic based on purpose, creativity, critical thinking, and logic. This leads to the fundamental pieces of the research endeavor: Question, objective, hypothesis, experimental tools to test the hypothesis, methodology, and data analysis. When correctly performed, research should produce new knowledge. The four cornerstones of good research are the well-formulated protocol or proposal that is well executed, analyzed, discussed and concluded. This recent workshop educated researchers in the critical steps involved in the development of a scientific idea to its successful execution and eventual publication.

INTRODUCTION

Creativity and critical thinking are of particular importance in scientific research. Basically, research is original investigation undertaken to gain knowledge and understand concepts in major subject areas of specialization, and includes the generation of ideas and information leading to new or substantially improved scientific insights with relevance to the needs of society. Hence, the primary objective of research is to produce new knowledge. Research is both theoretical and empirical. It is theoretical because the starting point of scientific research is the conceptualization of a research topic and development of a research question and hypothesis. Research is empirical (practical) because all of the planned studies involve a series of observations, measurements, and analyses of data that are all based on proper experimental design.[ 1 – 9 ]

The subject of this report is to inform readers of the proceedings from a recent workshop organized by the 64 th Annual conference of the ‘ Indian Pharmaceutical Congress ’ at SRM University, Chennai, India, from 05 to 06 December 2012. The objectives of the workshop titled ‘The Critical Steps for Successful Research: The Research Proposal and Scientific Writing,’ were to assist participants in developing a strong fundamental understanding of how best to develop a research or study protocol, and communicate those research findings in a conference setting or scientific journal. Completing any research project requires meticulous planning, experimental design and execution, and compilation and publication of findings in the form of a research paper. All of these are often unfamiliar to naïve researchers; thus, the purpose of this workshop was to teach participants to master the critical steps involved in the development of an idea to its execution and eventual publication of the results (See the last section for a list of learning objectives).

THE STRUCTURE OF THE WORKSHOP

The two-day workshop was formatted to include key lectures and interactive breakout sessions that focused on protocol development in six subject areas of the pharmaceutical sciences. This was followed by sessions on scientific writing. DAY 1 taught the basic concepts of scientific research, including: (1) how to formulate a topic for research and to describe the what, why , and how of the protocol, (2) biomedical literature search and review, (3) study designs, statistical concepts, and result analyses, and (4) publication ethics. DAY 2 educated the attendees on the basic elements and logistics of writing a scientific paper and thesis, and preparation of poster as well as oral presentations.

The final phase of the workshop was the ‘Panel Discussion,’ including ‘Feedback/Comments’ by participants. There were thirteen distinguished speakers from India and abroad. Approximately 120 post-graduate and pre-doctoral students, young faculty members, and scientists representing industries attended the workshop from different parts of the country. All participants received a printed copy of the workshop manual and supporting materials on statistical analyses of data.

THE BASIC CONCEPTS OF RESEARCH: THE KEY TO GETTING STARTED IN RESEARCH

A research project generally comprises four key components: (1) writing a protocol, (2) performing experiments, (3) tabulating and analyzing data, and (4) writing a thesis or manuscript for publication.

Fundamentals in the research process

A protocol, whether experimental or clinical, serves as a navigator that evolves from a basic outline of the study plan to become a qualified research or grant proposal. It provides the structural support for the research. Dr. G. Jagadeesh (US FDA), the first speaker of the session, spoke on ‘ Fundamentals in research process and cornerstones of a research project .’ He discussed at length the developmental and structural processes in preparing a research protocol. A systematic and step-by-step approach is necessary in planning a study. Without a well-designed protocol, there would be a little chance for successful completion of a research project or an experiment.

Research topic

The first and the foremost difficult task in research is to identify a topic for investigation. The research topic is the keystone of the entire scientific enterprise. It begins the project, drives the entire study, and is crucial for moving the project forward. It dictates the remaining elements of the study [ Table 1 ] and thus, it should not be too narrow or too broad or unfocused. Because of these potential pitfalls, it is essential that a good or novel scientific idea be based on a sound concept. Creativity, critical thinking, and logic are required to generate new concepts and ideas in solving a research problem. Creativity involves critical thinking and is associated with generating many ideas. Critical thinking is analytical, judgmental, and involves evaluating choices before making a decision.[ 4 ] Thus, critical thinking is convergent type thinking that narrows and refines those divergent ideas and finally settles to one idea for an in-depth study. The idea on which a research project is built should be novel, appropriate to achieve within the existing conditions, and useful to the society at large. Therefore, creativity and critical thinking assist biomedical scientists in research that results in funding support, novel discovery, and publication.[ 1 , 4 ]

Elements of a study protocol

Research question

The next most crucial aspect of a study protocol is identifying a research question. It should be a thought-provoking question. The question sets the framework. It emerges from the title, findings/results, and problems observed in previous studies. Thus, mastering the literature, attendance at conferences, and discussion in journal clubs/seminars are sources for developing research questions. Consider the following example in developing related research questions from the research topic.

Hepatoprotective activity of Terminalia arjuna and Apium graveolens on paracetamol-induced liver damage in albino rats.

How is paracetamol metabolized in the body? Does it involve P450 enzymes? How does paracetamol cause liver injury? What are the mechanisms by which drugs can alleviate liver damage? What biochemical parameters are indicative of liver injury? What major endogenous inflammatory molecules are involved in paracetamol-induced liver damage?

A research question is broken down into more precise objectives. The objectives lead to more precise methods and definition of key terms. The objectives should be SMART-Specific, Measurable, Achievable, Realistic, Time-framed,[ 10 ] and should cover the entire breadth of the project. The objectives are sometimes organized into hierarchies: Primary, secondary, and exploratory; or simply general and specific. Study the following example:

To evaluate the safety and tolerability of single oral doses of compound X in normal volunteers.

To assess the pharmacokinetic profile of compound X following single oral doses.

To evaluate the incidence of peripheral edema reported as an adverse event.

The objectives and research questions are then formulated into a workable or testable hypothesis. The latter forces us to think carefully about what comparisons will be needed to answer the research question, and establishes the format for applying statistical tests to interpret the results. The hypothesis should link a process to an existing or postulated biologic pathway. A hypothesis is written in a form that can yield measurable results. Studies that utilize statistics to compare groups of data should have a hypothesis. Consider the following example:

• The hepatoprotective activity of Terminalia arjuna is superior to that of Apium graveolens against paracetamol-induced liver damage in albino rats.

All biological research, including discovery science, is hypothesis-driven. However, not all studies need be conducted with a hypothesis. For example, descriptive studies (e.g., describing characteristics of a plant, or a chemical compound) do not need a hypothesis.[ 1 ]

Relevance of the study

Another important section to be included in the protocol is ‘significance of the study.’ Its purpose is to justify the need for the research that is being proposed (e.g., development of a vaccine for a disease). In summary, the proposed study should demonstrate that it represents an advancement in understanding and that the eventual results will be meaningful, contribute to the field, and possibly even impact society.

Biomedical literature

A literature search may be defined as the process of examining published sources of information on a research or review topic, thesis, grant application, chemical, drug, disease, or clinical trial, etc. The quantity of information available in print or electronically (e.g., the internet) is immense and growing with time. A researcher should be familiar with the right kinds of databases and search engines to extract the needed information.[ 3 , 6 ]

Dr. P. Balakumar (Institute of Pharmacy, Rajendra Institute of Technology and Sciences, Sirsa, Haryana; currently, Faculty of Pharmacy, AIMST University, Malaysia) spoke on ‘ Biomedical literature: Searching, reviewing and referencing .’ He schematically explained the basis of scientific literature, designing a literature review, and searching literature. After an introduction to the genesis and diverse sources of scientific literature searches, the use of PubMed, one of the premier databases used for biomedical literature searches world-wide, was illustrated with examples and screenshots. Several companion databases and search engines are also used for finding information related to health sciences, and they include Embase, Web of Science, SciFinder, The Cochrane Library, International Pharmaceutical Abstracts, Scopus, and Google Scholar.[ 3 ] Literature searches using alternative interfaces for PubMed such as GoPubMed, Quertle, PubFocus, Pubget, and BibliMed were discussed. The participants were additionally informed of databases on chemistry, drugs and drug targets, clinical trials, toxicology, and laboratory animals (reviewed in ref[ 3 ]).

Referencing and bibliography are essential in scientific writing and publication.[ 7 ] Referencing systems are broadly classified into two major types, such as Parenthetical and Notation systems. Parenthetical referencing is also known as Harvard style of referencing, while Vancouver referencing style and ‘Footnote’ or ‘Endnote’ are placed under Notation referencing systems. The participants were educated on each referencing system with examples.

Bibliography management

Dr. Raj Rajasekaran (University of California at San Diego, CA, USA) enlightened the audience on ‘ bibliography management ’ using reference management software programs such as Reference Manager ® , Endnote ® , and Zotero ® for creating and formatting bibliographies while writing a manuscript for publication. The discussion focused on the use of bibliography management software in avoiding common mistakes such as incomplete references. Important steps in bibliography management, such as creating reference libraries/databases, searching for references using PubMed/Google scholar, selecting and transferring selected references into a library, inserting citations into a research article and formatting bibliographies, were presented. A demonstration of Zotero®, a freely available reference management program, included the salient features of the software, adding references from PubMed using PubMed ID, inserting citations and formatting using different styles.

Writing experimental protocols

The workshop systematically instructed the participants in writing ‘ experimental protocols ’ in six disciplines of Pharmaceutical Sciences.: (1) Pharmaceutical Chemistry (presented by Dr. P. V. Bharatam, NIPER, Mohali, Punjab); (2) Pharmacology (presented by Dr. G. Jagadeesh and Dr. P. Balakumar); (3) Pharmaceutics (presented by Dr. Jayant Khandare, Piramal Life Sciences, Mumbai); (4) Pharmacy Practice (presented by Dr. Shobha Hiremath, Al-Ameen College of Pharmacy, Bengaluru); (5) Pharmacognosy and Phytochemistry (presented by Dr. Salma Khanam, Al-Ameen College of Pharmacy, Bengaluru); and (6) Pharmaceutical Analysis (presented by Dr. Saranjit Singh, NIPER, Mohali, Punjab). The purpose of the research plan is to describe the what (Specific Aims/Objectives), why (Background and Significance), and how (Design and Methods) of the proposal.

The research plan should answer the following questions: (a) what do you intend to do; (b) what has already been done in general, and what have other researchers done in the field; (c) why is this worth doing; (d) how is it innovative; (e) what will this new work add to existing knowledge; and (f) how will the research be accomplished?

In general, the format used by the faculty in all subjects is shown in Table 2 .

Elements of a research protocol

Biostatistics

Biostatistics is a key component of biomedical research. Highly reputed journals like The Lancet, BMJ, Journal of the American Medical Association, and many other biomedical journals include biostatisticians on their editorial board or reviewers list. This indicates that a great importance is given for learning and correctly employing appropriate statistical methods in biomedical research. The post-lunch session on day 1 of the workshop was largely committed to discussion on ‘ Basic biostatistics .’ Dr. R. Raveendran (JIPMER, Puducherry) and Dr. Avijit Hazra (PGIMER, Kolkata) reviewed, in parallel sessions, descriptive statistics, probability concepts, sample size calculation, choosing a statistical test, confidence intervals, hypothesis testing and ‘ P ’ values, parametric and non-parametric statistical tests, including analysis of variance (ANOVA), t tests, Chi-square test, type I and type II errors, correlation and regression, and summary statistics. This was followed by a practice and demonstration session. Statistics CD, compiled by Dr. Raveendran, was distributed to the participants before the session began and was demonstrated live. Both speakers worked on a variety of problems that involved both clinical and experimental data. They discussed through examples the experimental designs encountered in a variety of studies and statistical analyses performed for different types of data. For the benefit of readers, we have summarized statistical tests applied frequently for different experimental designs and post-hoc tests [ Figure 1 ].

Conceptual framework for statistical analyses of data. Of the two kinds of variables, qualitative (categorical) and quantitative (numerical), qualitative variables (nominal or ordinal) are not normally distributed. Numerical data that come from normal distributions are analyzed using parametric tests, if not; the data are analyzed using non-parametric tests. The most popularly used Student's t -test compares the means of two populations, data for this test could be paired or unpaired. One-way analysis of variance (ANOVA) is used to compare the means of three or more independent populations that are normally distributed. Applying t test repeatedly in pair (multiple comparison), to compare the means of more than two populations, will increase the probability of type I error (false positive). In this case, for proper interpretation, we need to adjust the P values. Repeated measures ANOVA is used to compare the population means if more than two observations coming from same subject over time. The null hypothesis is rejected with a ‘ P ’ value of less than 0.05, and the difference in population means is considered to be statistically significant. Subsequently, appropriate post-hoc tests are used for pairwise comparisons of population means. Two-way or three-way ANOVA are considered if two (diet, dose) or three (diet, dose, strain) independent factors, respectively, are analyzed in an experiment (not described in the Figure). Categorical nominal unmatched variables (counts or frequencies) are analyzed by Chi-square test (not shown in the Figure)

Research and publication ethics

The legitimate pursuit of scientific creativity is unfortunately being marred by a simultaneous increase in scientific misconduct. A disproportionate share of allegations involves scientists of many countries, and even from respected laboratories. Misconduct destroys faith in science and scientists and creates a hierarchy of fraudsters. Investigating misconduct also steals valuable time and resources. In spite of these facts, most researchers are not aware of publication ethics.

Day 1 of the workshop ended with a presentation on ‘ research and publication ethics ’ by Dr. M. K. Unnikrishnan (College of Pharmaceutical Sciences, Manipal University, Manipal). He spoke on the essentials of publication ethics that included plagiarism (attempting to take credit of the work of others), self-plagiarism (multiple publications by an author on the same content of work with slightly different wordings), falsification (manipulation of research data and processes and omitting critical data or results), gift authorship (guest authorship), ghostwriting (someone other than the named author (s) makes a major contribution), salami publishing (publishing many papers, with minor differences, from the same study), and sabotage (distracting the research works of others to halt their research completion). Additionally, Dr. Unnikrishnan pointed out the ‘ Ingelfinger rule ’ of stipulating that a scientist must not submit the same original research in two different journals. He also advised the audience that authorship is not just credit for the work but also responsibility for scientific contents of a paper. Although some Indian Universities are instituting preventive measures (e.g., use of plagiarism detecting software, Shodhganga digital archiving of doctoral theses), Dr. Unnikrishnan argued for a great need to sensitize young researchers on the nature and implications of scientific misconduct. Finally, he discussed methods on how editors and peer reviewers should ethically conduct themselves while managing a manuscript for publication.

SCIENTIFIC COMMUNICATION: THE KEY TO SUCCESSFUL SELLING OF FINDINGS

Research outcomes are measured through quality publications. Scientists must not only ‘do’ science but must ‘write’ science. The story of the project must be told in a clear, simple language weaving in previous work done in the field, answering the research question, and addressing the hypothesis set forth at the beginning of the study. Scientific publication is an organic process of planning, researching, drafting, revising, and updating the current knowledge for future perspectives. Writing a research paper is no easier than the research itself. The lectures of Day 2 of the workshop dealt with the basic elements and logistics of writing a scientific paper.

An overview of paper structure and thesis writing

Dr. Amitabh Prakash (Adis, Auckland, New Zealand) spoke on ‘ Learning how to write a good scientific paper .’ His presentation described the essential components of an original research paper and thesis (e.g., introduction, methods, results, and discussion [IMRaD]) and provided guidance on the correct order, in which data should appear within these sections. The characteristics of a good abstract and title and the creation of appropriate key words were discussed. Dr. Prakash suggested that the ‘title of a paper’ might perhaps have a chance to make a good impression, and the title might be either indicative (title that gives the purpose of the study) or declarative (title that gives the study conclusion). He also suggested that an abstract is a succinct summary of a research paper, and it should be specific, clear, and concise, and should have IMRaD structure in brief, followed by key words. Selection of appropriate papers to be cited in the reference list was also discussed. Various unethical authorships were enumerated, and ‘The International Committee of Medical Journal Editors (ICMJE) criteria for authorship’ was explained ( http://www.icmje.org/ethical_1author.html ; also see Table 1 in reference #9). The session highlighted the need for transparency in medical publication and provided a clear description of items that needed to be included in the ‘Disclosures’ section (e.g., sources of funding for the study and potential conflicts of interest of all authors, etc.) and ‘Acknowledgements’ section (e.g., writing assistance and input from all individuals who did not meet the authorship criteria). The final part of the presentation was devoted to thesis writing, and Dr. Prakash provided the audience with a list of common mistakes that are frequently encountered when writing a manuscript.

The backbone of a study is description of results through Text, Tables, and Figures. Dr. S. B. Deshpande (Institute of Medical Sciences, Banaras Hindu University, Varanasi, India) spoke on ‘ Effective Presentation of Results .’ The Results section deals with the observations made by the authors and thus, is not hypothetical. This section is subdivided into three segments, that is, descriptive form of the Text, providing numerical data in Tables, and visualizing the observations in Graphs or Figures. All these are arranged in a sequential order to address the question hypothesized in the Introduction. The description in Text provides clear content of the findings highlighting the observations. It should not be the repetition of facts in tables or graphs. Tables are used to summarize or emphasize descriptive content in the text or to present the numerical data that are unrelated. Illustrations should be used when the evidence bearing on the conclusions of a paper cannot be adequately presented in a written description or in a Table. Tables or Figures should relate to each other logically in sequence and should be clear by themselves. Furthermore, the discussion is based entirely on these observations. Additionally, how the results are applied to further research in the field to advance our understanding of research questions was discussed.

Dr. Peush Sahni (All-India Institute of Medical Sciences, New Delhi) spoke on effectively ‘ structuring the Discussion ’ for a research paper. The Discussion section deals with a systematic interpretation of study results within the available knowledge. He said the section should begin with the most important point relating to the subject studied, focusing on key issues, providing link sentences between paragraphs, and ensuring the flow of text. Points were made to avoid history, not repeat all the results, and provide limitations of the study. The strengths and novel findings of the study should be provided in the discussion, and it should open avenues for future research and new questions. The Discussion section should end with a conclusion stating the summary of key findings. Dr. Sahni gave an example from a published paper for writing a Discussion. In another presentation titled ‘ Writing an effective title and the abstract ,’ Dr. Sahni described the important components of a good title, such as, it should be simple, concise, informative, interesting and eye-catching, accurate and specific about the paper's content, and should state the subject in full indicating study design and animal species. Dr. Sahni explained structured (IMRaD) and unstructured abstracts and discussed a few selected examples with the audience.

Language and style in publication

The next lecture of Dr. Amitabh Prakash on ‘ Language and style in scientific writing: Importance of terseness, shortness and clarity in writing ’ focused on the actual sentence construction, language, grammar and punctuation in scientific manuscripts. His presentation emphasized the importance of brevity and clarity in the writing of manuscripts describing biomedical research. Starting with a guide to the appropriate construction of sentences and paragraphs, attendees were given a brief overview of the correct use of punctuation with interactive examples. Dr. Prakash discussed common errors in grammar and proactively sought audience participation in correcting some examples. Additional discussion was centered on discouraging the use of redundant and expendable words, jargon, and the use of adjectives with incomparable words. The session ended with a discussion of words and phrases that are commonly misused (e.g., data vs . datum, affect vs . effect, among vs . between, dose vs . dosage, and efficacy/efficacious vs . effective/effectiveness) in biomedical research manuscripts.

Working with journals

The appropriateness in selecting the journal for submission and acceptance of the manuscript should be determined by the experience of an author. The corresponding author must have a rationale in choosing the appropriate journal, and this depends upon the scope of the study and the quality of work performed. Dr. Amitabh Prakash spoke on ‘ Working with journals: Selecting a journal, cover letter, peer review process and impact factor ’ by instructing the audience in assessing the true value of a journal, understanding principles involved in the peer review processes, providing tips on making an initial approach to the editorial office, and drafting an appropriate cover letter to accompany the submission. His presentation defined the metrics that are most commonly used to measure journal quality (e.g., impact factor™, Eigenfactor™ score, Article Influence™ score, SCOPUS 2-year citation data, SCImago Journal Rank, h-Index, etc.) and guided attendees on the relative advantages and disadvantages of using each metric. Factors to consider when assessing journal quality were discussed, and the audience was educated on the ‘green’ and ‘gold’ open access publication models. Various peer review models (e.g., double-blind, single-blind, non-blind) were described together with the role of the journal editor in assessing manuscripts and selecting suitable reviewers. A typical checklist sent to referees was shared with the attendees, and clear guidance was provided on the best way to address referee feedback. The session concluded with a discussion of the potential drawbacks of the current peer review system.

Poster and oral presentations at conferences

Posters have become an increasingly popular mode of presentation at conferences, as it can accommodate more papers per meeting, has no time constraint, provides a better presenter-audience interaction, and allows one to select and attend papers of interest. In Figure 2 , we provide instructions, design, and layout in preparing a scientific poster. In the final presentation, Dr. Sahni provided the audience with step-by-step instructions on how to write and format posters for layout, content, font size, color, and graphics. Attendees were given specific guidance on the format of text on slides, the use of color, font type and size, and the use of illustrations and multimedia effects. Moreover, the importance of practical tips while delivering oral or poster presentation was provided to the audience, such as speak slowly and clearly, be informative, maintain eye contact, and listen to the questions from judges/audience carefully before coming up with an answer.

Guidelines and design to scientific poster presentation. The objective of scientific posters is to present laboratory work in scientific meetings. A poster is an excellent means of communicating scientific work, because it is a graphic representation of data. Posters should have focus points, and the intended message should be clearly conveyed through simple sections: Text, Tables, and Graphs. Posters should be clear, succinct, striking, and eye-catching. Colors should be used only where necessary. Use one font (Arial or Times New Roman) throughout. Fancy fonts should be avoided. All headings should have font size of 44, and be in bold capital letters. Size of Title may be a bit larger; subheading: Font size of 36, bold and caps. References and Acknowledgments, if any, should have font size of 24. Text should have font size between 24 and 30, in order to be legible from a distance of 3 to 6 feet. Do not use lengthy notes

PANEL DISCUSSION: FEEDBACK AND COMMENTS BY PARTICIPANTS

After all the presentations were made, Dr. Jagadeesh began a panel discussion that included all speakers. The discussion was aimed at what we do currently and could do in the future with respect to ‘developing a research question and then writing an effective thesis proposal/protocol followed by publication.’ Dr. Jagadeesh asked the following questions to the panelists, while receiving questions/suggestions from the participants and panelists.

• Does a Post-Graduate or Ph.D. student receive adequate training, either through an institutional course, a workshop of the present nature, or from the guide?
• Are these Post-Graduates self-taught (like most of us who learnt the hard way)?
• How are these guides trained? How do we train them to become more efficient mentors?
• Does a Post-Graduate or Ph.D. student struggle to find a method (s) to carry out studies? To what extent do seniors/guides help a post graduate overcome technical difficulties? How difficult is it for a student to find chemicals, reagents, instruments, and technical help in conducting studies?
• Analyses of data and interpretation: Most students struggle without adequate guidance.
• Thesis and publications frequently feature inadequate/incorrect statistical analyses and representation of data in tables/graphs. The student, their guide, and the reviewers all share equal responsibility.
• Who initiates and drafts the research paper? The Post-Graduate or their guide?
• What kind of assistance does a Post-Graduate get from the guide in finalizing a paper for publication?
• Does the guide insist that each Post-Graduate thesis yield at least one paper, and each Ph.D. thesis more than two papers, plus a review article?

The panelists and audience expressed a variety of views, but were unable to arrive at a decisive conclusion.

WHAT HAVE THE PARTICIPANTS LEARNED?

At the end of this fast-moving two-day workshop, the participants had opportunities in learning the following topics:

• Sequential steps in developing a study protocol, from choosing a research topic to developing research questions and a hypothesis.
• Study protocols on different topics in their subject of specialization
• Searching and reviewing the literature
• Appropriate statistical analyses in biomedical research
• Scientific ethics in publication
• Writing and understanding the components of a research paper (IMRaD)
• Recognizing the value of good title, running title, abstract, key words, etc
• Importance of Tables and Figures in the Results section, and their importance in describing findings
• Evidence-based Discussion in a research paper
• Language and style in writing a paper and expert tips on getting it published
• Presentation of research findings at a conference (oral and poster).

Overall, the workshop was deemed very helpful to participants. The participants rated the quality of workshop from “ satisfied ” to “ very satisfied .” A significant number of participants were of the opinion that the time allotted for each presentation was short and thus, be extended from the present two days to four days with adequate time to ask questions. In addition, a ‘hands-on’ session should be introduced for writing a proposal and manuscript. A large number of attendees expressed their desire to attend a similar workshop, if conducted, in the near future.

ACKNOWLEDGMENT

We gratefully express our gratitude to the Organizing Committee, especially Professors K. Chinnasamy, B. G. Shivananda, N. Udupa, Jerad Suresh, Padma Parekh, A. P. Basavarajappa, Mr. S. V. Veerramani, Mr. J. Jayaseelan, and all volunteers of the SRM University. We thank Dr. Thomas Papoian (US FDA) for helpful comments on the manuscript.

The opinions expressed herein are those of Gowraganahalli Jagadeesh and do not necessarily reflect those of the US Food and Drug Administration

Source of Support: Nil

Conflict of Interest: None declared.

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Three promising yale student scientists named goldwater scholars.

Hannah Barsouk, Molly Hill, and Parisa Vaziri

Three Yale College juniors — Hannah Barsouk, Molly Hill, and Parisa Vaziri — are among the 438 U.S. college students awarded Goldwater Scholarships for the 2024-2025 academic year (along with another 70 sophomores awarded the scholarship last year, who will receive a second year of support). The scholarships, named for the late U.S. Senator Barry Goldwater, encourage students to pursue research careers in the fields of natural sciences, engineering, and mathematics.

The Goldwater Scholarships, which are among the most eminent undergraduate awards in these fields, are supported by the Goldwater Foundation and by an ongoing partnership with the U.S. Department of Defense National Defense Education Program (NDEP).

The Yale awardees were selected from a pool of more than 5,000 college sophomores and juniors who were nominated by 446 academic institutions. Virtually all recipients say they intend to obtain a Ph.D., and many of have already published research in leading professional journals and presented their work at professional society conferences.

Hannah Barsouk, of Morse College, is pursuing a joint master’s and bachelor’s degree in Molecular Biophysics and Biochemistry (MB&B). They conduct research in the laboratory of Ronald Breaker, Sterling Professor of Molecular, Cellular, and Developmental Biology and professor of MB&B, studying an Ornate, Large, Extremophilic (OLE) class of non-coding RNAs theorized to be ancient regulators of stress response in bacteria. Prior to Yale, they worked with Professor Allyson O’Donnell at the University of Pittsburgh, researching alternative energy utilization pathways which are conserved from yeast to humans. Barsouk is a peer tutor for the MB&B biochemistry sequence, peer mentor for the major, and outreach coordinator for the Yale Science Magazine. After graduation, they intend to pursue a Ph.D. in Biochemistry, and hope to continue studying ancient biology and the molecular evolution of life.

Molly Hill, of Grace Hopper College, is studying ecology and evolutionary biology, and plans to double major in Humanities. She studies bird plumages and behavior in the lab of Richard Prum, the William Robertson Coe Professor of Ornithology of Ecology and Evolutionary Biology, including the range of iridescent colors produced by birds. She also researches the adolescent behavior of seabirds and plans to study the function of immature plumages in adolescent herring gulls at the Bowdoin Scientific Station on Kent Island, in New Brunswick, Canada, this summer. Previously, she studied the evolution of  Cyanolyca  jays at Occidental College, where she recently published a paper calling for the recognition of a new species of jay.

Parisa Vaziri, of Saybrook College, is majoring in neuroscience. She has been part of the Hahn Fellowship Program at Yale and since her first year has worked in the lab of Damon Clark, associate professor of molecular, cellular, and developmental biology and professor of physics and neuroscience, studying the neuroscience of motion detection in both humans and fruit flies. Last summer, Vaziri worked in Professor Tom Clandin’s lab at Stanford University, where she also studied motion detection algorithms. Before coming to Yale, she conducted taste reception and neurodegeneration research on fruit flies in Professor Kristin Scott’s lab at the University of California, Berkeley. During the COVID-19 pandemic, Vaziri built a makeshift neuroscience lab in her bathroom to continue conducting research. Her bathroom lab research garnered her social and mainstream media attention and landed her a spot as a finalist in the Regeneron Science Talent Search, which is the oldest and most prestigious STEM competition in the country for high school students. Aside from research, Vaziri enjoys playing the cello and piano, writing poetry, fishing, and spending time with her cat. In the future, she hopes to become a neuroscience professor who leads a lab and teaches students.

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Office of the Vice President for Research

Four clas faculty researchers secure prestigious early career awards.

Continuing  an upward trend of University of Iowa faculty securing prestigious early-career grants, four investigators from the Departments of Physics and Astronomy and Computer Science have been awarded notable grant awards to advance their careers.

DeRoo, Hoadley advance space instrumentation with Nancy Grace Roman Technology Fellowships in Astrophysics for Early Career Researchers

Casey DeRoo and Keri Hoadley , both assistant professors in the Department of Physics and Astronomy, each received a Nancy Grace Roman Technology Fellowship in Astrophysics for Early Career Researchers. The NASA fellowship provides each researcher with $500,000 over two years to support their research in space-based instrumentation. 

Hoadley’s research is two-pronged. She will design and ultimately prototype a mirror-based vacuum ultraviolet polarizer, which will allow researchers to access polarized light from space below 120-nanometer wavelength. Polarizing light at such a low wavelength is crucial to building optics for NASA’s future Habitable World Observatory (HWO), the agency’s next flagship astrophysics mission after the Nancy Grace Roman Space Telescope. 

“Our vacuum ultraviolet polarizer project is meant to help set up our lab to propose to NASA for one or more follow-up technology programs, including adapting this polarizer for use in vacuum systems, duplicating it and measuring its efficiency to measure additional flavors of polarized UV light, quantifying the polarization effects introduced by UV optical components that may be used on HWO, and building an astronomical instrument to measure the polarization of UV from around massive stars and throughout star-forming regions,” said Hoadley.

In addition, Hoadley and her team will build a facility to align, calibrate, and integrate small space telescopes before flight, using a vacuum chamber and wavelengths of light typically only accessible in space, which could help the university win future small satellite and suborbital missions from NASA. 

DeRoo will work to advance diffraction gratings made with electron beams that pattern structures on a nanometer scale.   Like a prism, diffraction gratings spread out and direct light coming from stars and galaxies, allowing researchers to deduce things like the temperature, density, or composition of an astronomical object.

The fellowship will allow DeRoo to upgrade the university’s Raith

 Voyager tool, a specialized fabrication tool hosted by OVPR’s Materials Analysis, Testing and Fabrication (MATFab) facility.

“These upgrades will let us perform algorithmic patterning, which uses computer code to quickly generate the patterns to be manufactured,” DeRoo said. “This is a major innovation that should enable us to make more complex grating shapes as well as make gratings more quickly.” DeRoo added that the enhancements mean his team may be able to make diffraction gratings that allow space instrument designs that are distinctly different from those launched to date.

“For faculty who develop space-based instruments, the Nancy Grace Roman Technology Fellowship is on par with the prestige of an NSF CAREER or Department of Energy Early Career award,” said Mary Hall Reno, professor and department chair. “Our track record with the program elevates our status as a destination university for astrophysics and space physics missions.”

Uppu pursues building blocks quantum computing with NSF CAREER Award

Ravitej Uppu, assistant professor in the Department of Physics and Astronomy, received a 5-year NSF CAREER award of $550,000 to conduct research aimed at amplifying the power of quantum computing and making its application more practical. 

Uppu and his team will explore the properties of light-matter interactions at the level of a single photon interacting with a single molecule, enabling them to generate efficient and high-quality multiphoton entangled states of light. Multiphoton entangled states, in which photons become inextricably linked, are necessary for photons to serve as practical quantum interconnects, transmitting information between quantum computing units, akin to classical cluster computers. 

“ In our pursuit of secure communication, exploiting quantum properties of light is the final frontier,” said Uppu. “However, unavoidable losses that occur in optical fiber links between users can easily nullify the secure link. Our research on multiphoton entangled states is a key building block for implementing ‘quantum repeaters’ that can overcome this challenge.”

Jiang tackles real-world data issues with NSF CAREER Award

Peng Jiang, assistant professor in the Department of Computer Science, received an NSF CAREER Award that will provide $548,944 over five years to develop tools to support the use of sampling-based algorithms. 

Sampling-based algorithms reduce computing costs by processing only a random selection of a dataset, which has made them increasingly popular, but the method still faces limited efficiency. Jiang will develop a suite of tools that simplify the implementation of sampling-based algorithms and improve their efficacy across wide range of computing and big data applications.

“ A simple example of a real-world application is subgraph matching,” Jiang said. “For example, one might be interested in finding a group of people with certain connections in a social network. The use of sampling-based algorithms can significantly accelerate this process.”

In addition to providing undergraduate students the opportunity to engage with this research, Jiang also plans for the project to enhance projects in computer science courses.

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Is CERN activating the world’s most powerful particle accelerator for the April 8 eclipse? No

Cern restarted its large hadron collider after a regular winter stop for maintenance. it is unrelated to the eclipse. .

As people around the country await the April 8 total eclipse, conspiracy theories about a Switzerland-based nuclear research facility have some social media users on edge. In their view is CERN, also known as the European Organization for Nuclear Research.

“Why is CERN being reactivated on April 8, the same day as the infamous eclipse?” asked a  March 29 Facebook post , referencing what it called the group’s plan to activate “the large hadron collider” on the day of the eclipse. “My gut instinct is that something really big is being planned for that day… perhaps a total takedown of both the grid and society in general worldwide.” In  another post  April 1, a man in a baseball cap speculated that CERN is deliberately starting back up April 8 to “open up a gateway, a portal.”

(Screenshot/Facebook)

These posts were flagged as part of Meta’s efforts to combat false news and misinformation on its News Feed. (Read more about our  partnership with Meta , which owns Facebook and Instagram.)

It is not unusual for scientists to conduct research during an eclipse, when the sun’s corona becomes visible and areas in totality go briefly dark in the moon’s shadow.  Total solar eclipses   allow researchers “to study Earth’s atmosphere under uncommon conditions.” NASA, for example, is launching three sounding rockets on the day of the eclipse to study its effects on the ionosphere (a mission that also became a  subject of   misinformation ).

But CERN’s research is different. The primary research focus of CERN — an acronym derived from the French name “Conseil Européen pour la Recherche Nucléaire” — is  particle physics , or “the study of the fundamental constituents of matter and the forces acting between them.” The organization seeks to find answers about the  universe’s fundamental structure .

CERN houses the Large Hadron Collider, the  most powerful particle accelerator in the world , which measures around 16.8 miles (27 kilometers) in circumference. The collider’s aim, as  Britannica explains , is to “understand the fundamental structure of matter by re-creating the extreme conditions that occurred in the first few moments of the universe according to the big-bang model.”

CERN spokesperson Sophie Tesauri told PolitiFact in an email that the collider’s activities have nothing to do with the April 8 eclipse.

“What we do at CERN is doing particle physics with accelerators such as the LHC, and this has little to do with astrophysics in a direct way,”  Tesauri said. “So there is no link between the solar eclipse on Monday 8th April, and what we do at CERN.”

CERN has an  accelerator complex  composed of machines with “increasingly higher energies.” A beam of particles is injected by one machine to the next one, bringing the beam to a higher energy — and the Large Hadron Collider is the last element in this complex.

“Hadrons” are a group of particles that include protons and ions. In the Large Hadron Collider,  two beams  travel in opposite directions at nearly light speed and are made to collide. In 2012, Large Hadron Collider experiments led to the discovery of the  Higgs boson particle , a particle named for British physicist Peter Higgs, who in the 1960s postulated about the existence of a particle that interacted with other particles at the beginning of time to provide them with their mass.

Tesauri told PolitiFact that the accelerator complex is restarted every year after a brief winter technical stop, when beam production ceases so that the accelerators can undergo maintenance. Restarting an accelerator like the Large Hadron Collider “requires a full commissioning process in order to check that all equipment works properly.”

“Now that all the checks have been performed, the LHC is ready to provide particle collisions to the LHC experiments, and first collisions for this year should actually happen today 5th April,” Tesauri said in her email. “This will mark the beginning of the physics run for 2024.”

The beams were initially expected to enter collision April 8, according to a  March 14 report . It said, “Depending on how work progresses, this milestone may shift forwards or backwards by a few days.”

On April 5, CERN  announced  that the Large Hadron Collider achieved its first stable beams in 2024, “marking the official start of the 2024 physics data-taking season.” The statement said that from March 8 to April 5, the Large Hadron Collider was set up to handle the beam and tested for any issues.

“Although the solar eclipse on 8 April will not affect the beams in the LHC, the gravitational pull of the moon, like the tides, changes the shape of the LHC because the machine is so big,” CERN’s announcement said. This phenomenon is not unique to an eclipse; a  2012 news release  discussed distortions in the machine brought about by a full moon.

According to CERN’s frequently asked questions page, the Large Hadron Collider is  expected to run over 20 years , “with several stops scheduled for upgrades and maintenance work.”

Conspiracy theories surrounding CERN’s work have been circulating for  years . In a statement to  Verify  fact-checkers, CERN said that its research “captures the imagination of lots of people, which is why CERN has been featured in a lot of science fiction books / even movies, around the world.” CERN said works inspired by its research are fictional and “should not be confused with the actual scientific research.”

False claims about the group’s work are so common that the organization addresses some common theories on its  FAQ page : No, it won’t “open a door to another dimension,” and no, it won’t “generate black holes in the cosmological sense.”

We rate the claim that CERN is activating its Large Hadron Collider in connection with the April 8 solar eclipse False.

More from Poynter:

• MAN ON MOON: Reflections on how mankind and the media came together on the surface of the moon 50 years ago
• Gannett journalists in the solar eclipse’s path go on strike
• What if newsrooms treated every day like eclipse day?

Opinion | O.J. Simpson, whose murder trial reshaped the media, dies at 76

Simpson’s trial lured a nation to its TVs, launched a network, created enduring ethics case studies and led to numerous career breakouts.

A fact-checker’s guide to Trump’s first criminal trial: business records, hush money and a gag order

Trump faces 34 counts of falsifying business records to cover up a payment to adult film actor Stormy Daniels.

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Opinion | Republican lawmaker crushes Tucker Carlson with surprisingly legitimate commentary

Texas Congressman Dan Crenshaw blasted the former Fox News host for being a ‘click-chaser’ in a capable rant on X.

Donald Trump said all legal scholars, ‘on both sides,’ wanted federal abortion law overturned. That’s wrong.

Roe v. Wade inspired legions of supporters and opponents. Before the 2022 ruling, numerous legal scholars urged the Supreme Court to uphold it.

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