qualitative research titles examples for senior high school students

100 Qualitative Research Titles For High School Students

Are you brainstorming for excellent qualitative research titles for your high school curriculum? If yes, then this blog is for you! Academic life throws a lot of thesis and qualitative research papers and essays at you. Although thesis and essays may not be much of a hassle. However, when it comes to your research paper title, you must ensure that it is qualitative, and not quantitative.

Qualitative research is primarily focused on obtaining data through case studies, artifacts, interviews, documentaries, and other first-hand observations. It focuses more on these natural settings rather than statistics and numbers. If you are finding it difficult to find a topic, then worry not because the high schooler has this blog post curated for you with 100 qualitative research titles that can help you get started!

Qualitative research prompts for high schoolers

Qualitative research papers are written by gathering and analyzing non-numerical data. Generally, teachers allot a list of topics that you can choose from. However, if you aren’t given the list, you need to search for a topic for yourself.

Qualitative research topics mostly deal with the happenings in society and nature. There are endless topics that you can choose from. We have curated a list of 100 qualitative research titles for you to choose from. Read on and pick the one that best aligns with your interests!

Why is there a pressing need for wildlife conservation?
Discuss the impacts of climate change on future generations.
Discuss the impact of overpopulation on sustainable resources.
Discuss the factors considered while establishing the first 10 engineering universities in the world.
What is the contribution of AI to emotional intelligence? Explain.
List out the effective methods to reduce the occurrences of fraud through cybercrimes.
With case studies, discuss some of the greatest movements in history leading to independence.
Discuss real-life scenarios of gender-based discrimination.
Discuss disparities in income and opportunities in developing nations.
How to deal with those dealing with ADHD?
Describe how life was before the invention of the air conditioner.
Explain the increasing applications of clinical psychology.
What is psychology? Explain the career opportunities it brings forth for youngsters.
Covid lockdown: Is homeschooling the new way to school children?
What is the role of army dogs? How are they trained for the role?
What is feminism to you? Mention a feminist and his/her contributions to making the world a better place for women.
What is true leadership quality according to you? Explain with a case study of a famous personality you admire for their leadership skills.
Is wearing a mask effective in preventing covid-19? Explain the other practices that can help one prevent covid-19.
Explain how teachers play an important role in helping students with disabilities improve their learning.
Is ‘E business’ taking over traditional methods of carrying out business?
What are the implications of allowing high schoolers to use smartphones in classes?
Does stress have an effect on human behavior?
Explain the link between poverty and education.
With case studies, explain the political instability in developing nations.
Are ‘reality television shows’ scripted or do they showcase reality?
Online vs Offline teaching: which method is more effective and how?
Does there exist an underlying correlation between education and success? Explain with case studies.
Explain the social stigma associated with menstruation.
Are OTT entertainment platforms like Netflix and Amazon Prime beneficial in any other way?
Does being physically active help reverse type 2 diabetes?
Does pop culture influence today’s youth and their behavior?
‘A friend in need is a friend in deed.’ Explain with case studies of famous personalities.
Do books have greater importance in the lives of children from weaker economic backgrounds? Explain in detail.
Give an overview of the rise of spoken arts.
Explain the problem of food insecurity in developing nations.
How related are Windows and Apple products?
Explore the methods used in schools to promote cultural diversity.
Has social media replaced the physical social engagement of children in society?
Give an overview of allopathic medicine in treating mental disorders.
Explain if and how willpower plays a role in overcoming difficulties in life.
Are third-world countries seeing a decline in academic pursuit? Explain with real-life scenarios.
Can animals predict earthquakes in advance? Explain which animals have this ability and how they do it.
Discuss if the education system in America needs to improve. If yes, list out how this can be achieved.
Discuss democracy as a government of the people, by the people, and for the people.’
Discuss the increasing rate of attention deficit disorder among children.
Explain fun games that can help boost the morale of kids with dyslexia.
Explain the causes of youth unemployment.
Explain some of the ways you think might help in making differently-abled students feel inclusive in the mainstream.
Explain in detail the challenges faced by students with special needs to feel included when it comes to accessibility to education.
Discuss the inefficiency of the healthcare system brought about by the covid-19 pandemic.
Does living in hostels instill better life skills among students than those who are brought up at home? Explain in detail.
What is Advanced Traffic Management? Explain the success cases of countries that have deployed it.
Elaborate on the ethnic and socioeconomic reasons leading to poor school attendance in third-world nations.
Do preschoolers benefit from being read to by their parents? Discuss in detail.
What is the significance of oral learning in classrooms?
Does computer literacy promise a brighter future? Analyze.
What people skills are enhanced in a high school classroom?
Discuss in detail the education system in place of a developing nation. Highlight the measures you think are impressive and those that you think need a change.
Apart from the drawbacks of UV rays on the human body, explain how it has proven to be beneficial in treating diseases.
Discuss why or why not wearing school uniforms can make students feel included in the school environment.
What are the effective ways that have been proven to mitigate child labor in society?
Explain the contributions of arts and literature to the evolving world.
How do healthcare organizations cope with patients living with transmissive medical conditions?
Why do people with special abilities still face hardships when it comes to accessibility to healthcare and education?
What are the prevailing signs of depression in small children?
How to identify the occurrences and onset of autism in kids below three years of age?
Explain how SWOT and PESTLE analysis is important for a business.
Why is it necessary to include mental health education in the school curriculum?
What is adult learning and does it have any proven benefits?
What is the importance of having access to libraries in high school?
Discuss the need for including research writing in school curriculums.
Explain some of the greatest non-violent movements of ancient history.
Explain the reasons why some of the species of wildlife are critically endangered today.
How is the growing emission of co2 bringing an unprecedented change in the environment?
What are the consequences of an increasing population in developing nations like India? Discuss in detail.
Are remote tests as effective as in-class tests?
Explain how sports play a vital role in schools.
What do you understand about social activities in academic institutions? Explain how they pose as a necessity for students.
Are there countries providing free healthcare? How are they faring in terms of their economy? Discuss in detail.
State case studies of human lives lost due to racist laws present in society.
Discuss the effect of COVID-19 vaccines in curbing the novel coronavirus.
State what according to you is more effective: e-learning or classroom-based educational systems.
What changes were brought into the e-commerce industry by the COVID-19 pandemic?
Name a personality regarded as a youth icon. Explain his or her contributions in detail.
Discuss why more and more people are relying on freelancing as a prospective career.
Does virtual learning imply lesser opportunities? What is your take?
Curbing obesity through exercise: Analyze.
Discuss the need and importance of health outreach programs.
Discuss in detail how the upcoming generation of youngsters can do its bit and contribute to afforestation.
Discuss the 2020 budget allocation of the United States.
Discuss some of the historic ‘rags to riches’ stories.
What according to you is the role of nurses in the healthcare industry?
Will AI actually replace humans and eat up their jobs? Discuss your view and also explain the sector that will benefit the most from AI replacing humans.
Is digital media taking over print media? Explain with case studies.
Why is there an increasing number of senior citizens in the elderly homes?
Are health insurances really beneficial?
How important are soft skills? What role do they play in recruitment?
Has the keto diet been effective in weight loss? Explain the merits and demerits.
Is swimming a good physical activity to curb obesity?
Is work from home as effective as work from office? Explain your take.

Qualitative research titles for high school students

Tips to write excellent qualitative research papers

Now that you have scrolled through this section, we trust that you have picked up a topic for yourself from our list of 100 brilliant qualitative research titles for high school students. Deciding on a topic is the very first step. The next step is to figure out ways how you can ensure that your qualitative research paper can help you grab top scores.

Once you have decided on the title, you are halfway there. However, deciding on a topic signals the next step, which is the process of writing your qualitative paper. This poses a real challenge!

To help you with it, here are a few tips that will help you accumulate data irrespective of the topic you have chosen. Follow these four simple steps and you will be able to do justice to the topic you have chosen!

Create an outline based on the topic. Jot down the sub-topics you would like to include.
Refer to as many sources as you can – documentaries, books, news articles, case studies, interviews, etc. Make a note of the facts and phrases you would like to include in your research paper.
Write the body. Start adding qualitative data.
Re-read and revise your paper. Make it comprehensible. Check for plagiarism, and proofread your research paper. Try your best and leave no scope for mistakes.

Wrapping it up!

To wrap up, writing a qualitative research paper is almost the same as writing other research papers such as argumentative research papers , English research papers , Biology research papers , and more. Writing a paper on qualitative research titles promotes analytical and critical thinking skills among students. Moreover, it also helps improve data interpretation and writing ability, which are essential for students going ahead.

qualitative research titles examples for senior high school students

Having a 10+ years of experience in teaching little budding learners, I am now working as a soft skills and IELTS trainers. Having spent my share of time with high schoolers, I understand their fears about the future. At the same time, my experience has helped me foster plenty of strategies that can make their 4 years of high school blissful. Furthermore, I have worked intensely on helping these young adults bloom into successful adults by training them for their dream colleges. Through my blogs, I intend to help parents, educators and students in making these years joyful and prosperous.

100+ Most Qualitative Research Topics For High School Students In 2024

Are you in high school? Searching for the best and most qualitative research topics for high school students? Research is a part of study that is good for brainstorming ideas about a particular subject.

When students research to find a qualitative research title, they face many challenges. These challenges include not knowing where to start or how to pick a good topic.

Do you want to take a review of some ideas that make your research better and great? Here, we give all of the most creative and qualitative research topics for students who studied in high school.

Table of Contents

What Is Qualitative Research Topics?

Well, before proceeding, you need to know what qualitative research topics are. A qualitative research title is like examining things closely to better understand them.

Instead of just numbers, we focus on stories and conversations to learn about people’s experiences and thoughts.

We use methods like talking to people and watching what they do to determine why things happen and how people feel about them.

This helps us learn about topics like how people learn, why they act the way they do, and what they think about important stuff.

List of Qualitative Research Topics For High School Students

Check out qualitative research topics for high school students:-

What is the effect of social media on the self-esteem of teenagers?
What do high school students think about their bodies?
What can teens do to manage stress?
How do teens feel about online bullying?
Do high schoolers feel peer pressure?
How safe do students feel at school?
How can teens cope with school-related stress?
What do students think about standardized tests?
Does having supportive parents impact students’ academic performance?
What’s it like for students from diverse backgrounds to attend school together?
Are students educated enough about mental health in school?
How do LGBTQ+ students feel in school?
How does screen time affect studying?
Do students enjoy participating in sports?
What was the experience of learning online during the pandemic like for students?
Do students approve of the school meals?
What are students’ opinions on dress codes?
How do students with learning differences feel in school?
Do extracurricular activities improve students’ well-being?
What do students think about vocational education?
How do students from non-college-educated families fare in school?
Do students benefit from peer tutoring?
How do students feel about classroom diversity?
How do students feel about emergency drills?
What’s students’ attitude towards sleep?
How do students perceive substance use?
How does home learning differ from traditional schooling?
Do students find internet-based learning effective?
What’s students’ perspective on counseling in school?
What’s the experience of balancing school and part-time jobs for students?
How does involvement in arts and music affect students?
What are students’ opinions on homework?
How do students feel about transitioning to high school?
What do students think about career-oriented education?
Do students prioritize environmental education?
How do students feel about hybrid learning?
Do students prefer certain friends in group activities?
How do students perceive their teachers?
What’s the experience of students needing extra support?
Do students value emergency preparedness training?
How do students feel about receiving help from tutors?
What’s students’ comfort level with class participation?
What’s the experience of students in advanced classes?
Do students perform better academically when their families are harmonious?
Do students engage in community service willingly?
What’s the experience of students in remote learning?
Do students aspire to attend college or pursue a trade?
What’s students’ perspective on multicultural literature?
How do students feel about attending alternative schools?
Do students enjoy learning about environmental issues?
How do students feel about using technology for learning?
What’s the experience of students needing to catch up on missed lessons?
Do students feel comfortable confiding in school counselors?
How do students perceive school dress codes?
What’s the experience of students attending specialized schools?
Do students feel safer with certain peers?
How do students respond to varied teaching methods?
Do students appreciate learning about environmental conservation?
What’s the experience of students going on class trips?
How do students prioritize their health?
What’s the experience of students learning in a non-native language?
Do students value emotional intelligence education?
How do students feel about hands-on learning?
What’s students’ perception of grading systems?
Do students believe in universal access to higher education?
How do students perceive cultural education?
What’s the experience of students struggling to fit in socially?
Do students enjoy learning about technology?
How do students feel about history and geography lessons?
What’s the experience of students receiving additional academic support?
Do students value global awareness in their education?
How do students feel about ethics education?
What’s the experience of students balancing school with caregiving responsibilities?
Do students appreciate lessons on individuality?
How do students feel about art and music education?
What’s the experience of academically gifted students?
Do students value civic education?
How do students perceive religious studies?
What’s the experience of students transferring schools?
Do students enjoy learning about real-world applications?
How do students feel about health education?
What’s the experience of students with attention difficulties in class?
Do students value community service education?
How do students feel about collaborative learning?
What’s the experience of students struggling with literacy or numeracy?
Do students enjoy learning about animal care?
How do students feel about career planning education ?
What’s the experience of students who learn best through practical tasks?
Do students value online safety education?
How do students feel about environmental stewardship education?
What’s the experience of students juggling school with work or responsibilities?
Do students appreciate lessons on advocacy?
How do students feel about culinary and nutritional education?
What’s the experience of students excelling in sports or extracurriculars?
Do students value lessons on respectfulness?
How do students feel about financial literacy education?
What’s the experience of students struggling to socialize?
Do students appreciate emergency preparedness education?
How do students feel about animal welfare education?
What’s the experience of students exploring career options?

How To Find Qualitative Research Topics For High School Students?

Here we give the easiest steps to choose the qualitative research topics for high school students:

Steps To Find Qualitative Research Topics

Most Exceptional Qualitative Research Topics In Social Science

These are the Exceptional Qualitative Research Topics In Social Science:

Fantastic Examples of Qualitative Research Titles

Here are the Fantastic Examples of Qualitative Research Titles:

Good Topics To Start for Qualitative Research

Here are the Good Qualitative Research Topics for High School Students:

Best Qualitative Research Topics for High School Students Pdf

Here is the Qualitative Research Topics for High School Students pdf:

Latest Examples of the Qualitative Research Topics That Impress the Teacher

Following are the good examples of qualitative research topics for high school students:

Most Interesting Qualitative Research Title Examples for Students

These are the Qualitative Research Title Examples for Students:

Great Qualitative Research Topics About Humanity & Social Science

These are the following Qualitative Researches Topics About Humanity & Social Science:

100+ Most Interesting Google Scholar Research Topics For Students [Updated 2024]

299+ Most Interesting Sports Research Topics For Students [2024]

Qualitative Research Topics & Ideas For Students

The Best Qualitative Research Topics For Students

Do you have difficulty finding a qualitative research title for your project? If you are, you need not worry because you are not alone. However, there are many unique qualitative titles you can explore for your research. You just need a few qualitative research title examples to get you started. Qualitative research is focused on data obtained through a researcher’s first-hand observations, natural setting recording, artifacts, case studies, documents, questionnaires, and interviews. The findings in qualitative research are usually non-numerical. Also, it is common in humanities and social sciences. This post provides over 100 qualitative research topics you can consider.

The Best Qualitative Research Topics That Impress the Teacher

Exceptional Qualitative Research Topics In Social Science

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An excellent research topic will help you earn a good grade. Consider any example of a qualitative research title from the following options:

The impacts of social media on physical social engagement in society
The benefits of treating mental disorders with medication
The effects of Gender-Based Violence on women’s social lives in rural areas
The decline of academic pursuit in third-world countries
Sexual workers: the stigma they experience
How has the promotion of feminist values influenced workplaces?
Free education: its impact in third-world countries
What is the correlation between education and success?
Ableism: its effects on disabled people in society
Food insecurity in third-world nations

The topic of your research paper can influence how easily you can conduct your study and draw conclusions.

Here are fantastic examples of qualitative research titles:

Female harm: how it is influenced by culture
The socioeconomic impacts of free education
The link between food insecurity and poor performance in schools
Alcoholism among college students: a critical study
How to mitigate child labor in our society
The root causes of child labor in Latin America
The stigma of living with transmissive medical conditions
The root cause of the stigma of people living with disabilities
How to identify depression in small children
Signs of autism in kids below two years old

Choosing a qualitative research topic is not a task you should take lightly because it can influence your performance. Here are some noteworthy qualitative research titles examples:

Basic patient care policies in developing nations
The impacts of alcoholism on education
Adult learning: what does it entail?
Homeschooling: Is it the latest trend after the pandemic?
Does computer literacy influence the quality of education kids enjoy?
How to effectively teach students with learning disabilities
The relationship between poor education systems and crime rates in third-world countries
Student bullying: the psychological impacts
Should high school students go through university preparedness programs?
research writing in high schools: its significance

Are you looking for qualitative research topic examples to start your study? Below are some creative examples to consider:

Remote tests: are they as effective as in-class tests?
The value of social activities in academic institutions
Why should healthcare be free in all countries?
The implications of racist laws on society
The reception of COVID-19 vaccines and treatments
What is the difference between foreign policies in first-world and third-world nations?
Racism and Colorism: what is the difference?
Dissecting the causes of low voter turnouts in the 21 st century
The challenges of social media on kid’s brain development
The inclusion of black women in American politics and its impacts

When competing with several brilliant minds, a good research topic can do you greatly. The following qualitative research examples titles are a great place to start:

Should school uniforms be discarded for high schoolers?
The need for equal representation in global politics
The implications of police brutality on politics
The role of parental care in foster kids
The distinction between Islamic values and Christian values
The correlation between political instability and migration
Sex trafficking and violence against women: what is the link?
How can global governments eradicate homelessness?
Fraternities and sororities: are they still relevant?
The role of literature in promoting societal changes

Qualitative research is popular in the education field and other social sciences. Choose a qualitative research title example on the subject of education from the following list:

Effectively introducing foreign languages in the high school curriculum
How can teachers help students with disabilities improve their learning?
The link between social activities and comprehension among students
Research writing in high schools: is it necessary?
How has virtual learning influenced teacher-student relationships?
The implications of allowing smartphones in classes
Should all schools introduce sign language lessons in their curriculum?
Student loans: their impacts on black students
The impacts of race on college acceptance rates
Poverty and education: what is the link?
Ethnic and socioeconomic causes of poor school attendance in developing worlds
Various teaching methods and their efficiency
Efficient teaching methods for children below two years
Why do students perform better in humanities than in sciences?
The difference between college acceptance and completion in most nations
Remote learning in developing countries
What are the best ways of approaching bullying in schools?
How do teachers promote inequality among students?
Does social class influence academic performance negatively or positively?
How do teachers shape their students’ personalities?

Coming up with a qualitative research title can be hard because of the numerous subject areas and the issue of uniqueness. Therefore, we have prepared the following qualitative title examples for you:

How to promote oral learning in classrooms
Political instability in developing countries: its economic impacts
The impacts of weather on social activities
Boredom and poor-decision making: the connection
Exploring the connection between attachment types and love languages
Socioeconomic impacts of instability on a country
How does social media impact the perception of reality
Reality TV shows: are they a true reflection of reality?
How culture applies to different age groups
Is social media influencing the loss of cultural values?

You can base your research topic on a specific region or nation, like the Philippines. A sample qualitative research title can get you started. You can pick a sample qualitative research title from the ideas below:

Why are so many Philippines residents migrating to America?
The impact of politics on migration in the Philippines
How has violence led to food insecurity in rural areas in the Philippines?
The Philippine education system: an overview
How cultural norms influence social activities in the Philippines
Gender roles in the Philippines society
How popular Filipino cultures have served as agents of social change in the nation
The link between male dominance and GBV in the Philippines
Barriers to clean hygiene in health centers in the Philippines
The spread of COVID in rural areas in the Philippines

Most top performers in research subjects attribute their success to choosing the best title for qualitative research. Here are some qualitative research topics about humanities and social science to promote good performance:

The impact of poor market rivalry on supply and demand
The role of parents in shaping kids’ morals
Is social media the root cause of poor societal morals?
How does alcohol impact a person’s normal behavior?
How often should adults engage in sporting activities?
Children’s eating habits and their influences
Low socioeconomic backgrounds and their impacts on self-esteem
The effect of the COVID-19 pandemic on the world’s views on viral diseases
How can school-going kids manage depression
Causes of mental challenges among school-going kids

Finding a good topic for qualitative research is a critical task that requires a lot of thought and research. However, we have simplified the process with the following qualitative topic ideas:

Pop music and erratic youth behavior: is there a link?
How do public figures influence cultures?
Ideas for improving healthcare in developing nations
Possible solutions for alleviating the food crisis in developing nations
New ways of mitigating viral diseases
Social media trends among the elderly
Quarantine as a mitigation approach for infectious diseases
Promoting social justice in patriarchal societies
Worrying trends among the young population
Emerging marketing trends in 2023

Qualitative research for college and high school students helps improve reading, writing, and intellectual skills. Here are some qualitative research examples and topic ideas for students :

How to detect and prevent natural disasters beforehand
Can the whole world have the same education system?
What is the most effective therapy for patients recuperating from brain surgery?
Possible solutions for promoting ethical practices in telehealth
Can addicts overcome addiction without therapy?
The latest technology trends and their impacts?
How can global governments promote mental health awareness?
Have smartphones caused reduced attention spans among users?
Sexual violence in rural areas
The introduction of Islam in African nations

We Are Here for You

Qualitative research is an investigative analysis of intangible or inexact data, mostly non-numerical. The title of qualitative research you choose will guide your entire research process and influence its conclusions. Do you need a paper or an example of a research title qualitative topic? Our expert team is ready to write it for you.

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100 Interesting Research Paper Topics for High Schoolers

What’s covered:, how to pick the right research topic, elements of a strong research paper.

Interesting Research Paper Topics

Composing a research paper can be a daunting task for first-time writers. In addition to making sure you’re using concise language and your thoughts are organized clearly, you need to find a topic that draws the reader in.

CollegeVine is here to help you brainstorm creative topics! Below are 100 interesting research paper topics that will help you engage with your project and keep you motivated until you’ve typed the final period.

A research paper is similar to an academic essay but more lengthy and requires more research. This added length and depth is bittersweet: although a research paper is more work, you can create a more nuanced argument, and learn more about your topic. Research papers are a demonstration of your research ability and your ability to formulate a convincing argument. How well you’re able to engage with the sources and make original contributions will determine the strength of your paper.

You can’t have a good research paper without a good research paper topic. “Good” is subjective, and different students will find different topics interesting. What’s important is that you find a topic that makes you want to find out more and make a convincing argument. Maybe you’ll be so interested that you’ll want to take it further and investigate some detail in even greater depth!

For example, last year over 4000 students applied for 500 spots in the Lumiere Research Scholar Program , a rigorous research program founded by Harvard researchers. The program pairs high-school students with Ph.D. mentors to work 1-on-1 on an independent research project . The program actually does not require you to have a research topic in mind when you apply, but pro tip: the more specific you can be the more likely you are to get in!

Introduction

The introduction to a research paper serves two critical functions: it conveys the topic of the paper and illustrates how you will address it. A strong introduction will also pique the interest of the reader and make them excited to read more. Selecting a research paper topic that is meaningful, interesting, and fascinates you is an excellent first step toward creating an engaging paper that people will want to read.

Thesis Statement

A thesis statement is technically part of the introduction—generally the last sentence of it—but is so important that it merits a section of its own. The thesis statement is a declarative sentence that tells the reader what the paper is about. A strong thesis statement serves three purposes: present the topic of the paper, deliver a clear opinion on the topic, and summarize the points the paper will cover.

An example of a good thesis statement of diversity in the workforce is:

Diversity in the workplace is not just a moral imperative but also a strategic advantage for businesses, as it fosters innovation, enhances creativity, improves decision-making, and enables companies to better understand and connect with a diverse customer base.

The body is the largest section of a research paper. It’s here where you support your thesis, present your facts and research, and persuade the reader.

Each paragraph in the body of a research paper should have its own idea. The idea is presented, generally in the first sentence of the paragraph, by a topic sentence. The topic sentence acts similarly to the thesis statement, only on a smaller scale, and every sentence in the paragraph with it supports the idea it conveys.

An example of a topic sentence on how diversity in the workplace fosters innovation is:

Diversity in the workplace fosters innovation by bringing together individuals with different backgrounds, perspectives, and experiences, which stimulates creativity, encourages new ideas, and leads to the development of innovative solutions to complex problems.

The body of an engaging research paper flows smoothly from one idea to the next. Create an outline before writing and order your ideas so that each idea logically leads to another.

The conclusion of a research paper should summarize your thesis and reinforce your argument. It’s common to restate the thesis in the conclusion of a research paper.

For example, a conclusion for a paper about diversity in the workforce is:

In conclusion, diversity in the workplace is vital to success in the modern business world. By embracing diversity, companies can tap into the full potential of their workforce, promote creativity and innovation, and better connect with a diverse customer base, ultimately leading to greater success and a more prosperous future for all.

Reference Page

The reference page is normally found at the end of a research paper. It provides proof that you did research using credible sources, properly credits the originators of information, and prevents plagiarism.

There are a number of different formats of reference pages, including APA, MLA, and Chicago. Make sure to format your reference page in your teacher’s preferred style.

Analyze the benefits of diversity in education.
Are charter schools useful for the national education system?
How has modern technology changed teaching?
Discuss the pros and cons of standardized testing.
What are the benefits of a gap year between high school and college?
What funding allocations give the most benefit to students?
Does homeschooling set students up for success?
Should universities/high schools require students to be vaccinated?
What effect does rising college tuition have on high schoolers?
Do students perform better in same-sex schools?
Discuss and analyze the impacts of a famous musician on pop music.
How has pop music evolved over the past decade?
How has the portrayal of women in music changed in the media over the past decade?
How does a synthesizer work?
How has music evolved to feature different instruments/voices?
How has sound effect technology changed the music industry?
Analyze the benefits of music education in high schools.
Are rehabilitation centers more effective than prisons?
Are congestion taxes useful?
Does affirmative action help minorities?
Can a capitalist system effectively reduce inequality?
Is a three-branch government system effective?
What causes polarization in today’s politics?
Is the U.S. government racially unbiased?
Choose a historical invention and discuss its impact on society today.
Choose a famous historical leader who lost power—what led to their eventual downfall?
How has your country evolved over the past century?
What historical event has had the largest effect on the U.S.?
Has the government’s response to national disasters improved or declined throughout history?
Discuss the history of the American occupation of Iraq.
Explain the history of the Israel-Palestine conflict.
Is literature relevant in modern society?
Discuss how fiction can be used for propaganda.
How does literature teach and inform about society?
Explain the influence of children’s literature on adulthood.
How has literature addressed homosexuality?
Does the media portray minorities realistically?
Does the media reinforce stereotypes?
Why have podcasts become so popular?
Will streaming end traditional television?
What is a patriot?
What are the pros and cons of global citizenship?
What are the causes and effects of bullying?
Why has the divorce rate in the U.S. been declining in recent years?
Is it more important to follow social norms or religion?
What are the responsible limits on abortion, if any?
How does an MRI machine work?
Would the U.S. benefit from socialized healthcare?
Elderly populations
The education system
State tax bases
How do anti-vaxxers affect the health of the country?
Analyze the costs and benefits of diet culture.
Should companies allow employees to exercise on company time?
What is an adequate amount of exercise for an adult per week/per month/per day?
Discuss the effects of the obesity epidemic on American society.
Are students smarter since the advent of the internet?
What departures has the internet made from its original design?
Has digital downloading helped the music industry?
Discuss the benefits and costs of stricter internet censorship.
Analyze the effects of the internet on the paper news industry.
What would happen if the internet went out?
How will artificial intelligence (AI) change our lives?
What are the pros and cons of cryptocurrency?
How has social media affected the way people relate with each other?
Should social media have an age restriction?
Discuss the importance of source software.
What is more relevant in today’s world: mobile apps or websites?
How will fully autonomous vehicles change our lives?
How is text messaging affecting teen literacy?

Mental Health

What are the benefits of daily exercise?
How has social media affected people’s mental health?
What things contribute to poor mental and physical health?
Analyze how mental health is talked about in pop culture.
Discuss the pros and cons of more counselors in high schools.
How does stress affect the body?
How do emotional support animals help people?
What are black holes?
Discuss the biggest successes and failures of the EPA.
How has the Flint water crisis affected life in Michigan?
Can science help save endangered species?
Is the development of an anti-cancer vaccine possible?

Environment

What are the effects of deforestation on climate change?
Is climate change reversible?
How did the COVID-19 pandemic affect global warming and climate change?
Are carbon credits effective for offsetting emissions or just marketing?
Is nuclear power a safe alternative to fossil fuels?
Are hybrid vehicles helping to control pollution in the atmosphere?
How is plastic waste harming the environment?
Is entrepreneurism a trait people are born with or something they learn?
How much more should CEOs make than their average employee?
Can you start a business without money?
Should the U.S. raise the minimum wage?
Discuss how happy employees benefit businesses.
How important is branding for a business?
Discuss the ease, or difficulty, of landing a job today.
What is the economic impact of sporting events?
Are professional athletes overpaid?
Should male and female athletes receive equal pay?
What is a fair and equitable way for transgender athletes to compete in high school sports?
What are the benefits of playing team sports?
What is the most corrupt professional sport?

Where to Get More Research Paper Topic Ideas

If you need more help brainstorming topics, especially those that are personalized to your interests, you can use CollegeVine’s free AI tutor, Ivy . Ivy can help you come up with original research topic ideas, and she can also help with the rest of your homework, from math to languages.

Disclaimer: This post includes content sponsored by Lumiere Education.

100 Qualitative Research Paper Topics

Published by Ellie Cross at November 1st, 2021 , Revised On November 3, 2023

Selecting an interesting research topic is a very daunting task. And it becomes even more daunting when students are required to pick a topic that is:

Highly specific
Useful to the larger research community
Has a lot of material present on it to start with
Can be supported by enough facts and figures
Instrumental in closing the ‘research gap’ that already exists around it or within the same field of study.
Tries to explain the what , why , how , when , where and/or who behind a phenomenon or an event.

Because of all these factors, institutions—schools, colleges and universities alike—pay so much attention to the kind of topics their students will be researching on.

Qualitative research involves describing or explaining an event or a phenomenon without heavily relying on statistical or mathematical practices. Even though some qualitative research papers do make use of such practices to collect data, in the end, they generally rely on summarising and interpreting that data qualitatively.

Did you know that an eclectic method or mixed-methods approach is a research method that uses both quantitative and qualitative means of data collection and interpretation?

How to Choose the Correct Qualitative Research Paper Topic

Settling on the right qualitative research topic for one’s study depends on answers to some questions and personal student reflections, such as: :

Can I research this topic in the time I have been given by my school/college/university?
Is there a research gap that my research will be able to fill?
Is this topic highly necessary; if I don’t research this topic, will the research community be affected?
Has this topic been researched before?
Does this topic support doable, practical research objectives and questions?
Does my topic lean more towards the quantitative side than the qualitative side?

Such questions, if brainstormed before selecting a topic, will greatly help make the right decision about what kind of research needs to be done.

Still having difficulty choosing the perfect qualitative research topic? Below is a list of 100 qualitative research topics for different types of students.

Qualitative Research Paper Topics for Senior High School Students

In most countries around the world, high school generally comprises grades from 9th or 10th to 12th grade. The courses taught to students in high school mostly include the ones listed below, along with some unique qualitative research topics for each subject.

What are the main cultural elements in Charlotte Brontë’s novels? OR How do they reflect modern cultures?
How does literary language differ from the non-literary language in writing?
What are the differences between poetry and drama?
Which Shakespearean play/drama is most relevant to present times and why/how?
How do Charles Dickens’ writings portray the pre-industrial revolution era?
Why are Charles Bukowski’s writings negatively criticised?

Biology/Animals/Nature

Why are coral reefs so important in marine life?
How do bones in the human body ossify?
Flora and fauna in deserts: truth or fiction?
When is exposure to the sun beneficial and harmful to the human body?
What is mercury poisoning in humans?
What is the world’s oldest plant/animal species?
What are the effects and causes of prolonged humidity or lack of rain on land?
Is global warming getting worse or is it just a myth?
Why do some plants need water and some don’t?
Are there any physical benefits of having pets?
What are ferrofluids?
How do aluminium and mercury react together? What happens/doesn’t happen?
What are the properties of aerogel?
Can metal be smelled? If not, why, and if so, how?
How can old jewellery be turned into gold bars?
When does milk become lactose-free?
Why are some gases odourless and others aren’t?
How are black holes evolving?
What is so special about Jupiter’s rings?
What is the Fermi Paradox and what are the Five Solutions to it?
Where can the law of entropy be witnessed in action?
Does the soul have weight? How can it be measured?
How does the Large Hadron Collider (LHC) work?
What kind of environments would fission and fusion reactions not hold in?
What are the major implications of the Civil War in today’s world?
How did the age of piracy end?
Which civilisation was advanced and why (Roman, Greek, Incan, etc)?
What would modern society be like without the two World Wars?
Which ancient cultures have survived/are still practiced today? How?
What is the Nova Effect?
Will AI be the end of humankind?
Nihilism: good or bad?
Why is Arthur Schopenhauer considered the ‘darkest’ philosopher of all time?
Stoicism, Taoism, or Absurdism: which leads to a happier life?
How does the Amara Effect work in real life?

Arts and design

Do students learn better in a ‘colourful’ and architecturally rich environment?
What is the importance of the golden ratio in modern-day design?
Lefties are more artistic: myth or fact?
What is the importance of birth order according to Adler’s theory?
Alcoholism and drug abuse is common in teenagers: why or why not?
How do the ID, EGO and SUPEREGO shape an adult’s personality according to Freud?
Why is gratitude considered a sign of happiness in young adults?
Where do the effects of childhood abuse affect one’s mental well-being in later life stages?
Bullied children go on to bully others: fact or fiction?
Why is Bach’s classical music given so much importance?
Are music and memory connected? How?
What are Beethoven’s contributions to present-day orchestral music?

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Qualitative Research Paper Topics for ABM Students

This group of students comprises those who belong to the field of accountancy, business and management. Even though the following topics have been mentioned for each field separately, some of them can be mixed and matched. Because each field in ABM might make use of other, surrounding fields during its research process. This is all because of a simple fact: such fields are very inter-connected.

Accountancy

Will Blockchain improve the future of accounting? Why or why not?
How has the COVID-19 situation affected accountancy firms globally?
Is cryptocurrency the solution to all the financial issues of today’s consumerist society? Why/why not or how?
What are some important ethical considerations involved in discretionary accruals?
What will an accounting firm be like without interest rates?
Do international firms like Coke or Nestle have a better accountancy workforce than local vendors? Why or why not?
How can someone launch their own business during the current COVID-19 pandemic? How is it different than launching a business any other time of the year?
Is the AI business model the most integrated business approach model out there right now? Why/why not or how?
What is the importance of language in communicating business goals, reaching the target audience, etc.?
Which business ethics’ theories are followed most rigorously by contemporary businesses and why?
When do businesses like Amazon or Shopify least benefit or affect the general public or other businesses?
What is the relation between career and talent management?
Which affects management more: process planning or project planning? Why or how?
Does organisational leadership affect management in small companies? How?
Where is construction management most useful?
How will an organisation be affected without brand management?

Qualitative Research Paper Topics for STEM Students

STEM students belong to the fields of science, technology, engineering and mathematics. Same as ABM, STEM research topics can also be mixed and matched with one another. Since the STEM fields are also highly intertwined with each one, it becomes difficult to tell sometimes what kind of topics are solely for one field or the other.

For instance, a topic related to global warming can be considered merely scientific. But then again, fields like technology, engineering and mathematics are all different faces of science. So, while discussing the effects of global warming, a student might find themselves discussing how technological advancements can help prevent excessive damage caused by global warming worldwide.

Similarly, mathematics is heavily used in the field of engineering. So, research from one field doesn’t necessarily have to rely on that field alone. It can go on to join with other related fields, too.

The following topics, therefore, might be combined with others to create a whole new topic. Or they can also be used as they are.

Is terraforming on Mars (and possibly on other planets too) a good or bad move? Why?
How do black holes affect supernovas?
Can ice caps melting from global warming be artificially preserved to stop the spread of viruses living under the snow?
How has the earth changed in the last 100 years?
What is the relation between climate change and flora and fauna growth?
Are science and religion two sides of the same coin? Why or why not?
The scientific inquiry leads to more questions than answers: fact or fiction?
Scientific inventions have destroyed more than created. Is that so? Why or why not?
What is the most likely future of energy, be it solar or otherwise?
What is the importance of dialectical behaviour therapy (DBT) in helping patients?
What are the negative implications of machine learning in today’s world?
How has information technology (IT) revolutionised the medical world in the last couple of years?
Wireless technology or AI: which is better and why?
What is blockchain technology? Or Why is it important?
Should nanotechnology be adopted in different spheres of life? Why or why not?
How has Python revolutionised the world of technology in contemporary society?

Engineering

What are some important future trends in industrial robotics?
How has aerospace engineering helped scientists and engineers discover all they have about space?
Where does civil engineering play an important part in construction?
Where are industrial pneumatics used mostly these days and how?
Why is mechanical design so important in a product’s development process?
Which household use engineering products run on thermodynamics and how?
What are the fundamentals of submarine engineering?
How do hydroelectric power plants function?

Mathematics

How do modern construction workers and/or designers make use of the Fibonacci sequence?
How do mathematical calculations help determine the endpoint of the universe?
How do spacecraft make use of basic math in their construction and working?
What is the role of maths in data science?
Where are mathematical computations used in game development?
Is contemporary mathematical knowledge and practices etc. based on Vedic math? Why/why not or how?
Can architects work without the use of geometry? Why or why not?

Explore further: Check out the top 10 tips every emerging qualitative researcher ought to know about before beginning their research.

Other Essay Topics: Discursive Essay Topics & Ideas 2022 , Persuasive Essay Topics – Suggested By Industry Experts , Argumentative Essay Topics and Ideas .

Selecting a research topic is the first and therefore, perhaps the hardest step in the research process. Qualitative research involves using more descriptive, non-statistical and/or non-mathematical practices to collect and interpret data.

There are a couple of important things that should be considered before finalising a research topic, such as whether it’s practical, doable within the assigned time, etc.

There are many different types of qualitative research topics that high school students, ABM (accountancy, business, management) and STEM (science, technology, engineering, mathematics) students can uptake these days, especially with new knowledge being published each day in different fields. However, there is still always more to be discovered, explored and explained.

Selecting a qualitative research topic for senior high school, ABM, or STEM students is made easier when the close relationship between these fields is considered. Since they’re all so interconnected, a topic from one field is bound to include elements of another, closely related field. Such topics can therefore be mixed and matched to create a whole new topic!

Frequently Asked Questions

How to choose the correct qualitative research paper topic.

To choose a qualitative research paper topic, consider your interests, expertise, and available resources. Explore current trends, gaps in knowledge, and societal issues. Seek feedback from peers and advisors. Prioritize relevance, feasibility, and potential impact. Refine your topic to ensure it aligns with your research goals.

Tips on how to choose good qualitative research topics

Writing a research paper or a college assignment with success solely depends on your ability to choose suitable qualitative research topics. It’s essential to carefully examine and explore the field with all the challenges before you start writing to identify the key factors and aspects of your assignment. Here are a few tips on how to do that to get good research paper ideas.

Align your research topic with your field of interest

Your assignment topic should be something that interests you deeply so that you can completely get into it and make the most out of your efforts. More importantly, your topic should allow you to develop your personal skills and learn new things.

Make sure you have all the right research on the topic

If you choose a topic that has little to no supporting research available, you’ll end up getting stuck. You must properly research the topic before you start writing. This research will also help you shortlist unrelated topics and narrow down your scope so that you can focus on the information that matches your exact needs.

Follow your university guidelines!

Consulting with your professors and going through the assessment guidelines is paramount to writing a top-class paper. Follow your university guidelines to make sure your efforts get approved by your supervisor.

List of qualitative research topics examples

Long-term planning methods for better project management
How to deal with issues during a project implementation program
The best practices for dealing with tight project deadlines
Why time management is essential for goal setting
Flexibility in management: How to improve decision-making as a manager
Top professional techniques for developing management skills
Healthcare in low-income societies: How to achieve affordable medical care
Dealing with a loss and the process of recovery
How to make eco-friendly facemasks
Preventing flu during cold seasons: The most effective preventative methods
The importance of developing community-based sanitization programs
The best practices for quitting alcohol and cigarettes
Helping the young manage their obesity: The most effective obesity management strategies
Promoting healthcare during COVID-19: Strategies for expanding the health sector
Guide to collecting resources for building a centralized community
How academic and social practices can help uplift a society
Professional practices for building a one-on-one relationship between teachers and students
The science behind consumer motivations and appraisals
Reshaping the traditional form of virtual ethnography
Are homeschooling programs as efficient as they should be?
The importance of developing healthy eating habits
The best strategies for getting ahead of the prospective market
How to track the dynamics of real estate investments
How effective are modern newsgathering technologies?
Developing introvert behavior and its key effects
Can sharing help an individual overcome addictions?
Guide to creating a one-people community
The most effective methods for dealing with cyberbullying
The best way to bringing social equity to patriarchal societies
How quarantine prevents the spread of infectious diseases
The aging populations and the trends they follow
The latest digital media trends
Methods for mitigating communicable diseases
How governments work on protocol observance
Practices for preventing the spread of the coronavirus in crowded places
Alleviating pain during childbirth
Maternal healthcare in developing countries
Can pop music change erratic youth behavior?
The best therapies for recovering from brain surgery
How alcohol changes normal behavior
Depression management among school-going children
Strategies for avoiding a viral disease
Ways to influence the eating habits of children
How and when to engage in sporting activities
How low socioeconomic background impacts self-esteem
The importance of parenting for shaping children’s morals
The impact of poor market completion on supply and demand
Do children under four years need preschool education?
Single-gender schools vs. mixed schools
How the world would benefit from the same education system
How virtual reality helps reshape the world
The hottest destinations for traveling at the moment
How fast does the ozone layer deplete?
Is it possible to predict natural disasters before they occur?
The effects of digital marketing on modern businesses
Physical learning vs. online learning
How related are Windows and Apple products?
Study cases of bullying in schools
The effect of stress on human behavior
Patient behavior and the influence of social processes

If you’re looking for the best way to choose some of the most suitable qualitative research paper topics for your college assignment, these 60 topics should help you get ahead of your task and write an engaging paper. All topics above are for your personal education and motivation. If you still need help with your assignment, our professional paper writing services are available 24/7.

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Research Topics & Ideas: Education

170+ Research Ideas To Fast-Track Your Project

Topic Kickstarter: Research topics in education

If you’re just starting out exploring education-related topics for your dissertation, thesis or research project, you’ve come to the right place. In this post, we’ll help kickstart your research topic ideation process by providing a hearty list of research topics and ideas , including examples from actual dissertations and theses..

PS – This is just the start…

We know it’s exciting to run through a list of research topics, but please keep in mind that this list is just a starting point . To develop a suitable education-related research topic, you’ll need to identify a clear and convincing research gap , and a viable plan of action to fill that gap.

If this sounds foreign to you, check out our free research topic webinar that explores how to find and refine a high-quality research topic, from scratch. Alternatively, if you’d like hands-on help, consider our 1-on-1 coaching service .

Overview: Education Research Topics

How to find a research topic (video)
List of 50+ education-related research topics/ideas
List of 120+ level-specific research topics
Examples of actual dissertation topics in education
Tips to fast-track your topic ideation (video)
Free Webinar : Topic Ideation 101
Where to get extra help

Education-Related Research Topics & Ideas

Below you’ll find a list of education-related research topics and idea kickstarters. These are fairly broad and flexible to various contexts, so keep in mind that you will need to refine them a little. Nevertheless, they should inspire some ideas for your project.

The impact of school funding on student achievement
The effects of social and emotional learning on student well-being
The effects of parental involvement on student behaviour
The impact of teacher training on student learning
The impact of classroom design on student learning
The impact of poverty on education
The use of student data to inform instruction
The role of parental involvement in education
The effects of mindfulness practices in the classroom
The use of technology in the classroom
The role of critical thinking in education
The use of formative and summative assessments in the classroom
The use of differentiated instruction in the classroom
The use of gamification in education
The effects of teacher burnout on student learning
The impact of school leadership on student achievement
The effects of teacher diversity on student outcomes
The role of teacher collaboration in improving student outcomes
The implementation of blended and online learning
The effects of teacher accountability on student achievement
The effects of standardized testing on student learning
The effects of classroom management on student behaviour
The effects of school culture on student achievement
The use of student-centred learning in the classroom
The impact of teacher-student relationships on student outcomes
The achievement gap in minority and low-income students
The use of culturally responsive teaching in the classroom
The impact of teacher professional development on student learning
The use of project-based learning in the classroom
The effects of teacher expectations on student achievement
The use of adaptive learning technology in the classroom
The impact of teacher turnover on student learning
The effects of teacher recruitment and retention on student learning
The impact of early childhood education on later academic success
The impact of parental involvement on student engagement
The use of positive reinforcement in education
The impact of school climate on student engagement
The role of STEM education in preparing students for the workforce
The effects of school choice on student achievement
The use of technology in the form of online tutoring

Level-Specific Research Topics

Looking for research topics for a specific level of education? We’ve got you covered. Below you can find research topic ideas for primary, secondary and tertiary-level education contexts. Click the relevant level to view the respective list.

Research Topics: Pick An Education Level

Primary education.

Investigating the effects of peer tutoring on academic achievement in primary school
Exploring the benefits of mindfulness practices in primary school classrooms
Examining the effects of different teaching strategies on primary school students’ problem-solving skills
The use of storytelling as a teaching strategy in primary school literacy instruction
The role of cultural diversity in promoting tolerance and understanding in primary schools
The impact of character education programs on moral development in primary school students
Investigating the use of technology in enhancing primary school mathematics education
The impact of inclusive curriculum on promoting equity and diversity in primary schools
The impact of outdoor education programs on environmental awareness in primary school students
The influence of school climate on student motivation and engagement in primary schools
Investigating the effects of early literacy interventions on reading comprehension in primary school students
The impact of parental involvement in school decision-making processes on student achievement in primary schools
Exploring the benefits of inclusive education for students with special needs in primary schools
Investigating the effects of teacher-student feedback on academic motivation in primary schools
The role of technology in developing digital literacy skills in primary school students
Effective strategies for fostering a growth mindset in primary school students
Investigating the role of parental support in reducing academic stress in primary school children
The role of arts education in fostering creativity and self-expression in primary school students
Examining the effects of early childhood education programs on primary school readiness
Examining the effects of homework on primary school students’ academic performance
The role of formative assessment in improving learning outcomes in primary school classrooms
The impact of teacher-student relationships on academic outcomes in primary school
Investigating the effects of classroom environment on student behavior and learning outcomes in primary schools
Investigating the role of creativity and imagination in primary school curriculum
The impact of nutrition and healthy eating programs on academic performance in primary schools
The impact of social-emotional learning programs on primary school students’ well-being and academic performance
The role of parental involvement in academic achievement of primary school children
Examining the effects of classroom management strategies on student behavior in primary school
The role of school leadership in creating a positive school climate Exploring the benefits of bilingual education in primary schools
The effectiveness of project-based learning in developing critical thinking skills in primary school students
The role of inquiry-based learning in fostering curiosity and critical thinking in primary school students
The effects of class size on student engagement and achievement in primary schools
Investigating the effects of recess and physical activity breaks on attention and learning in primary school
Exploring the benefits of outdoor play in developing gross motor skills in primary school children
The effects of educational field trips on knowledge retention in primary school students
Examining the effects of inclusive classroom practices on students’ attitudes towards diversity in primary schools
The impact of parental involvement in homework on primary school students’ academic achievement
Investigating the effectiveness of different assessment methods in primary school classrooms
The influence of physical activity and exercise on cognitive development in primary school children
Exploring the benefits of cooperative learning in promoting social skills in primary school students

Secondary Education

Investigating the effects of school discipline policies on student behavior and academic success in secondary education
The role of social media in enhancing communication and collaboration among secondary school students
The impact of school leadership on teacher effectiveness and student outcomes in secondary schools
Investigating the effects of technology integration on teaching and learning in secondary education
Exploring the benefits of interdisciplinary instruction in promoting critical thinking skills in secondary schools
The impact of arts education on creativity and self-expression in secondary school students
The effectiveness of flipped classrooms in promoting student learning in secondary education
The role of career guidance programs in preparing secondary school students for future employment
Investigating the effects of student-centered learning approaches on student autonomy and academic success in secondary schools
The impact of socio-economic factors on educational attainment in secondary education
Investigating the impact of project-based learning on student engagement and academic achievement in secondary schools
Investigating the effects of multicultural education on cultural understanding and tolerance in secondary schools
The influence of standardized testing on teaching practices and student learning in secondary education
Investigating the effects of classroom management strategies on student behavior and academic engagement in secondary education
The influence of teacher professional development on instructional practices and student outcomes in secondary schools
The role of extracurricular activities in promoting holistic development and well-roundedness in secondary school students
Investigating the effects of blended learning models on student engagement and achievement in secondary education
The role of physical education in promoting physical health and well-being among secondary school students
Investigating the effects of gender on academic achievement and career aspirations in secondary education
Exploring the benefits of multicultural literature in promoting cultural awareness and empathy among secondary school students
The impact of school counseling services on student mental health and well-being in secondary schools
Exploring the benefits of vocational education and training in preparing secondary school students for the workforce
The role of digital literacy in preparing secondary school students for the digital age
The influence of parental involvement on academic success and well-being of secondary school students
The impact of social-emotional learning programs on secondary school students’ well-being and academic success
The role of character education in fostering ethical and responsible behavior in secondary school students
Examining the effects of digital citizenship education on responsible and ethical technology use among secondary school students
The impact of parental involvement in school decision-making processes on student outcomes in secondary schools
The role of educational technology in promoting personalized learning experiences in secondary schools
The impact of inclusive education on the social and academic outcomes of students with disabilities in secondary schools
The influence of parental support on academic motivation and achievement in secondary education
The role of school climate in promoting positive behavior and well-being among secondary school students
Examining the effects of peer mentoring programs on academic achievement and social-emotional development in secondary schools
Examining the effects of teacher-student relationships on student motivation and achievement in secondary schools
Exploring the benefits of service-learning programs in promoting civic engagement among secondary school students
The impact of educational policies on educational equity and access in secondary education
Examining the effects of homework on academic achievement and student well-being in secondary education
Investigating the effects of different assessment methods on student performance in secondary schools
Examining the effects of single-sex education on academic performance and gender stereotypes in secondary schools
The role of mentoring programs in supporting the transition from secondary to post-secondary education

Tertiary Education

The role of student support services in promoting academic success and well-being in higher education
The impact of internationalization initiatives on students’ intercultural competence and global perspectives in tertiary education
Investigating the effects of active learning classrooms and learning spaces on student engagement and learning outcomes in tertiary education
Exploring the benefits of service-learning experiences in fostering civic engagement and social responsibility in higher education
The influence of learning communities and collaborative learning environments on student academic and social integration in higher education
Exploring the benefits of undergraduate research experiences in fostering critical thinking and scientific inquiry skills
Investigating the effects of academic advising and mentoring on student retention and degree completion in higher education
The role of student engagement and involvement in co-curricular activities on holistic student development in higher education
The impact of multicultural education on fostering cultural competence and diversity appreciation in higher education
The role of internships and work-integrated learning experiences in enhancing students’ employability and career outcomes
Examining the effects of assessment and feedback practices on student learning and academic achievement in tertiary education
The influence of faculty professional development on instructional practices and student outcomes in tertiary education
The influence of faculty-student relationships on student success and well-being in tertiary education
The impact of college transition programs on students’ academic and social adjustment to higher education
The impact of online learning platforms on student learning outcomes in higher education
The impact of financial aid and scholarships on access and persistence in higher education
The influence of student leadership and involvement in extracurricular activities on personal development and campus engagement
Exploring the benefits of competency-based education in developing job-specific skills in tertiary students
Examining the effects of flipped classroom models on student learning and retention in higher education
Exploring the benefits of online collaboration and virtual team projects in developing teamwork skills in tertiary students
Investigating the effects of diversity and inclusion initiatives on campus climate and student experiences in tertiary education
The influence of study abroad programs on intercultural competence and global perspectives of college students
Investigating the effects of peer mentoring and tutoring programs on student retention and academic performance in tertiary education
Investigating the effectiveness of active learning strategies in promoting student engagement and achievement in tertiary education
Investigating the effects of blended learning models and hybrid courses on student learning and satisfaction in higher education
The role of digital literacy and information literacy skills in supporting student success in the digital age
Investigating the effects of experiential learning opportunities on career readiness and employability of college students
The impact of e-portfolios on student reflection, self-assessment, and showcasing of learning in higher education
The role of technology in enhancing collaborative learning experiences in tertiary classrooms
The impact of research opportunities on undergraduate student engagement and pursuit of advanced degrees
Examining the effects of competency-based assessment on measuring student learning and achievement in tertiary education
Examining the effects of interdisciplinary programs and courses on critical thinking and problem-solving skills in college students
The role of inclusive education and accessibility in promoting equitable learning experiences for diverse student populations
The role of career counseling and guidance in supporting students’ career decision-making in tertiary education
The influence of faculty diversity and representation on student success and inclusive learning environments in higher education

Education-Related Dissertations & Theses

While the ideas we’ve presented above are a decent starting point for finding a research topic in education, they are fairly generic and non-specific. So, it helps to look at actual dissertations and theses in the education space to see how this all comes together in practice.

Below, we’ve included a selection of education-related research projects to help refine your thinking. These are actual dissertations and theses, written as part of Master’s and PhD-level programs, so they can provide some useful insight as to what a research topic looks like in practice.

From Rural to Urban: Education Conditions of Migrant Children in China (Wang, 2019)
Energy Renovation While Learning English: A Guidebook for Elementary ESL Teachers (Yang, 2019)
A Reanalyses of Intercorrelational Matrices of Visual and Verbal Learners’ Abilities, Cognitive Styles, and Learning Preferences (Fox, 2020)
A study of the elementary math program utilized by a mid-Missouri school district (Barabas, 2020)
Instructor formative assessment practices in virtual learning environments : a posthumanist sociomaterial perspective (Burcks, 2019)
Higher education students services: a qualitative study of two mid-size universities’ direct exchange programs (Kinde, 2020)
Exploring editorial leadership : a qualitative study of scholastic journalism advisers teaching leadership in Missouri secondary schools (Lewis, 2020)
Selling the virtual university: a multimodal discourse analysis of marketing for online learning (Ludwig, 2020)
Advocacy and accountability in school counselling: assessing the use of data as related to professional self-efficacy (Matthews, 2020)
The use of an application screening assessment as a predictor of teaching retention at a midwestern, K-12, public school district (Scarbrough, 2020)
Core values driving sustained elite performance cultures (Beiner, 2020)
Educative features of upper elementary Eureka math curriculum (Dwiggins, 2020)
How female principals nurture adult learning opportunities in successful high schools with challenging student demographics (Woodward, 2020)
The disproportionality of Black Males in Special Education: A Case Study Analysis of Educator Perceptions in a Southeastern Urban High School (McCrae, 2021)

As you can see, these research topics are a lot more focused than the generic topic ideas we presented earlier. So, in order for you to develop a high-quality research topic, you’ll need to get specific and laser-focused on a specific context with specific variables of interest. In the video below, we explore some other important things you’ll need to consider when crafting your research topic.

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Published: 02 December 2020

Enhancing senior high school student engagement and academic performance using an inclusive and scalable inquiry-based program

Locke Davenport Huyer ORCID: orcid.org/0000-0003-1526-7122 1 , 2 na1 ,
Neal I. Callaghan ORCID: orcid.org/0000-0001-8214-3395 1 , 3 na1 ,
Sara Dicks 4 ,
Edward Scherer 4 ,
Andrey I. Shukalyuk 1 ,
Margaret Jou 4 &
Dawn M. Kilkenny ORCID: orcid.org/0000-0002-3899-9767 1 , 5

npj Science of Learning volume 5 , Article number: 17 ( 2020 ) Cite this article

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The multi-disciplinary nature of science, technology, engineering, and math (STEM) careers often renders difficulty for high school students navigating from classroom knowledge to post-secondary pursuits. Discrepancies between the knowledge-based high school learning approach and the experiential approach of future studies leaves some students disillusioned by STEM. We present Discovery , a term-long inquiry-focused learning model delivered by STEM graduate students in collaboration with high school teachers, in the context of biomedical engineering. Entire classes of high school STEM students representing diverse cultural and socioeconomic backgrounds engaged in iterative, problem-based learning designed to emphasize critical thinking concomitantly within the secondary school and university environments. Assessment of grades and survey data suggested positive impact of this learning model on students’ STEM interests and engagement, notably in under-performing cohorts, as well as repeating cohorts that engage in the program on more than one occasion. Discovery presents a scalable platform that stimulates persistence in STEM learning, providing valuable learning opportunities and capturing cohorts of students that might otherwise be under-engaged in STEM.

Subject integration and theme evolution of STEM education in K-12 and higher education research

Skill levels and gains in university STEM education in China, India, Russia and the United States

Academic ecosystems must evolve to support a sustainable postdoc workforce

Introduction.

High school students with diverse STEM interests often struggle to understand the STEM experience outside the classroom 1 . The multi-disciplinary nature of many career fields can foster a challenge for students in their decision to enroll in appropriate high school courses while maintaining persistence in study, particularly when these courses are not mandatory 2 . Furthermore, this challenge is amplified by the known discrepancy between the knowledge-based learning approach common in high schools and the experiential, mastery-based approaches afforded by the subsequent undergraduate model 3 . In the latter, focused classes, interdisciplinary concepts, and laboratory experiences allow for the application of accumulated knowledge, practice in problem solving, and development of both general and technical skills 4 . Such immersive cooperative learning environments are difficult to establish in the secondary school setting and high school teachers often struggle to implement within their classroom 5 . As such, high school students may become disillusioned before graduation and never experience an enriched learning environment, despite their inherent interests in STEM 6 .

It cannot be argued that early introduction to varied math and science disciplines throughout high school is vital if students are to pursue STEM fields, especially within engineering 7 . However, the majority of literature focused on student interest and retention in STEM highlights outcomes in US high school learning environments, where the sciences are often subject-specific from the onset of enrollment 8 . In contrast, students in the Ontario (Canada) high school system are required to complete Level 1 and 2 core courses in science and math during Grades 9 and 10; these courses are offered as ‘applied’ or ‘academic’ versions and present broad topics of content 9 . It is not until Levels 3 and 4 (generally Grades 11 and 12, respectively) that STEM classes become subject-specific (i.e., Biology, Chemistry, and/or Physics) and are offered as “university”, “college”, or “mixed” versions, designed to best prepare students for their desired post-secondary pursuits 9 . Given that Levels 3 and 4 science courses are not mandatory for graduation, enrollment identifies an innate student interest in continued learning. Furthermore, engagement in these post-secondary preparatory courses is also dependent upon achieving successful grades in preceding courses, but as curriculum becomes more subject-specific, students often yield lower degrees of success in achieving course credit 2 . Therefore, it is imperative that learning supports are best focused on ensuring that those students with an innate interest are able to achieve success in learning.

When given opportunity and focused support, high school students are capable of successfully completing rigorous programs at STEM-focused schools 10 . Specialized STEM schools have existed in the US for over 100 years; generally, students are admitted after their sophomore year of high school experience (equivalent to Grade 10) based on standardized test scores, essays, portfolios, references, and/or interviews 11 . Common elements to this learning framework include a diverse array of advanced STEM courses, paired with opportunities to engage in and disseminate cutting-edge research 12 . Therein, said research experience is inherently based in the processes of critical thinking, problem solving, and collaboration. This learning framework supports translation of core curricular concepts to practice and is fundamental in allowing students to develop better understanding and appreciation of STEM career fields.

Despite the described positive attributes, many students do not have the ability or resources to engage within STEM-focused schools, particularly given that they are not prevalent across Canada, and other countries across the world. Consequently, many public institutions support the idea that post-secondary led engineering education programs are effective ways to expose high school students to engineering education and relevant career options, and also increase engineering awareness 13 . Although singular class field trips are used extensively to accomplish such programs, these may not allow immersive experiences for application of knowledge and practice of skills that are proven to impact long-term learning and influence career choices 14 , 15 . Longer-term immersive research experiences, such as after-school programs or summer camps, have shown successful at recruiting students into STEM degree programs and careers, where longevity of experience helps foster self-determination and interest-led, inquiry-based projects 4 , 16 , 17 , 18 , 19 .

Such activities convey the elements that are suggested to make a post-secondary led high school education programs successful: hands-on experience, self-motivated learning, real-life application, immediate feedback, and problem-based projects 20 , 21 . In combination with immersion in university teaching facilities, learning is authentic and relevant, similar to the STEM school-focused framework, and consequently representative of an experience found in actual STEM practice 22 . These outcomes may further be a consequence of student engagement and attitude: Brown et al. studied the relationships between STEM curriculum and student attitudes, and found the latter played a more important role in intention to persist in STEM when compared to self-efficacy 23 . This is interesting given that student self-efficacy has been identified to influence ‘motivation, persistence, and determination’ in overcoming challenges in a career pathway 24 . Taken together, this suggests that creation and delivery of modern, exciting curriculum that supports positive student attitudes is fundamental to engage and retain students in STEM programs.

Supported by the outcomes of identified effective learning strategies, University of Toronto (U of T) graduate trainees created a novel high school education program Discovery , to develop a comfortable yet stimulating environment of inquiry-focused iterative learning for senior high school students (Grades 11 & 12; Levels 3 & 4) at non-specialized schools. Built in strong collaboration with science teachers from George Harvey Collegiate Institute (Toronto District School Board), Discovery stimulates application of STEM concepts within a unique term-long applied curriculum delivered iteratively within both U of T undergraduate teaching facilities and collaborating high school classrooms 25 . Based on the volume of medically-themed news and entertainment that is communicated to the population at large, the rapidly-growing and diverse field of biomedical engineering (BME) were considered an ideal program context 26 . In its definition, BME necessitates cross-disciplinary STEM knowledge focused on the betterment of human health, wherein Discovery facilitates broadening student perspective through engaging inquiry-based projects. Importantly, Discovery allows all students within a class cohort to work together with their classroom teacher, stimulating continued development of a relevant learning community that is deemed essential for meaningful context and important for transforming student perspectives and understandings 27 , 28 . Multiple studies support the concept that relevant learning communities improve student attitudes towards learning, significantly increasing student motivation in STEM courses, and consequently improving the overall learning experience 29 . Learning communities, such as that provided by Discovery , also promote the formation of self-supporting groups, greater active involvement in class, and higher persistence rates for participating students 30 .

The objective of Discovery , through structure and dissemination, is to engage senior high school science students in challenging, inquiry-based practical BME activities as a mechanism to stimulate comprehension of STEM curriculum application to real-world concepts. Consequent focus is placed on critical thinking skill development through an atmosphere of perseverance in ambiguity, something not common in a secondary school knowledge-focused delivery but highly relevant in post-secondary STEM education strategies. Herein, we describe the observed impact of the differential project-based learning environment of Discovery on student performance and engagement. We identify the value of an inquiry-focused learning model that is tangible for students who struggle in a knowledge-focused delivery structure, where engagement in conceptual critical thinking in the relevant subject area stimulates student interest, attitudes, and resulting academic performance. Assessment of study outcomes suggests that when provided with a differential learning opportunity, student performance and interest in STEM increased. Consequently, Discovery provides an effective teaching and learning framework within a non-specialized school that motivates students, provides opportunity for critical thinking and problem-solving practice, and better prepares them for persistence in future STEM programs.

Program delivery

The outcomes of the current study result from execution of Discovery over five independent academic terms as a collaboration between Institute of Biomedical Engineering (graduate students, faculty, and support staff) and George Harvey Collegiate Institute (science teachers and administration) stakeholders. Each term, the program allowed senior secondary STEM students (Grades 11 and 12) opportunity to engage in a novel project-based learning environment. The program structure uses the problem-based engineering capstone framework as a tool of inquiry-focused learning objectives, motivated by a central BME global research topic, with research questions that are inter-related but specific to the curriculum of each STEM course subject (Fig. 1 ). Over each 12-week term, students worked in teams (3–4 students) within their class cohorts to execute projects with the guidance of U of T trainees ( Discovery instructors) and their own high school teacher(s). Student experimental work was conducted in U of T teaching facilities relevant to the research study of interest (i.e., Biology and Chemistry-based projects executed within Undergraduate Teaching Laboratories; Physics projects executed within Undergraduate Design Studios). Students were introduced to relevant techniques and safety procedures in advance of iterative experimentation. Importantly, this experience served as a course term project for students, who were assessed at several points throughout the program for performance in an inquiry-focused environment as well as within the regular classroom (Fig. 1 ). To instill the atmosphere of STEM, student teams delivered their outcomes in research poster format at a final symposium, sharing their results and recommendations with other post-secondary students, faculty, and community in an open environment.

The general program concept (blue background; top left ) highlights a global research topic examined through student dissemination of subject-specific research questions, yielding multifaceted student outcomes (orange background; top right ). Each program term (term workflow, yellow background; bottom panel ), students work on program deliverables in class (blue), iterate experimental outcomes within university facilities (orange), and are assessed accordingly at numerous deliverables in an inquiry-focused learning model.

Over the course of five terms there were 268 instances of tracked student participation, representing 170 individual students. Specifically, 94 students participated during only one term of programming, 57 students participated in two terms, 16 students participated in three terms, and 3 students participated in four terms. Multiple instances of participation represent students that enrol in more than one STEM class during their senior years of high school, or who participated in Grade 11 and subsequently Grade 12. Students were surveyed before and after each term to assess program effects on STEM interest and engagement. All grade-based assessments were performed by high school teachers for their respective STEM class cohorts using consistent grading rubrics and assignment structure. Here, we discuss the outcomes of student involvement in this experiential curriculum model.

Student performance and engagement

Student grades were assigned, collected, and anonymized by teachers for each Discovery deliverable (background essay, client meeting, proposal, progress report, poster, and final presentation). Teachers anonymized collective Discovery grades, the component deliverable grades thereof, final course grades, attendance in class and during programming, as well as incomplete classroom assignments, for comparative study purposes. Students performed significantly higher in their cumulative Discovery grade than in their cumulative classroom grade (final course grade less the Discovery contribution; p < 0.0001). Nevertheless, there was a highly significant correlation ( p < 0.0001) observed between the grade representing combined Discovery deliverables and the final course grade (Fig. 2a ). Further examination of the full dataset revealed two student cohorts of interest: the “Exceeds Expectations” (EE) subset (defined as those students who achieved ≥1 SD [18.0%] grade differential in Discovery over their final course grade; N = 99 instances), and the “Multiple Term” (MT) subset (defined as those students who participated in Discovery more than once; 76 individual students that collectively accounted for 174 single terms of assessment out of the 268 total student-terms delivered) (Fig. 2b, c ). These subsets were not unrelated; 46 individual students who had multiple experiences (60.5% of total MTs) exhibited at least one occasion in achieving a ≥18.0% grade differential. As students participated in group work, there was concern that lower-performing students might negatively influence the Discovery grade of higher-performing students (or vice versa). However, students were observed to self-organize into groups where all individuals received similar final overall course grades (Fig. 2d ), thereby alleviating these concerns.

a Linear regression of student grades reveals a significant correlation ( p = 0.0009) between Discovery performance and final course grade less the Discovery contribution to grade, as assessed by teachers. The dashed red line and intervals represent the theoretical 1:1 correlation between Discovery and course grades and standard deviation of the Discovery -course grade differential, respectively. b , c Identification of subgroups of interest, Exceeds Expectations (EE; N = 99, orange ) who were ≥+1 SD in Discovery -course grade differential and Multi-Term (MT; N = 174, teal ), of which N = 65 students were present in both subgroups. d Students tended to self-assemble in working groups according to their final course performance; data presented as mean ± SEM. e For MT students participating at least 3 terms in Discovery , there was no significant correlation between course grade and time, while ( f ) there was a significant correlation between Discovery grade and cumulative terms in the program. Histograms of total absences per student in ( g ) Discovery and ( h ) class (binned by 4 days to be equivalent in time to a single Discovery absence).

The benefits experienced by MT students seemed progressive; MT students that participated in 3 or 4 terms ( N = 16 and 3, respectively ) showed no significant increase by linear regression in their course grade over time ( p = 0.15, Fig. 2e ), but did show a significant increase in their Discovery grades ( p = 0.0011, Fig. 2f ). Finally, students demonstrated excellent Discovery attendance; at least 91% of participants attended all Discovery sessions in a given term (Fig. 2g ). In contrast, class attendance rates reveal a much wider distribution where 60.8% (163 out of 268 students) missed more than 4 classes (equivalent in learning time to one Discovery session) and 14.6% (39 out of 268 students) missed 16 or more classes (equivalent in learning time to an entire program of Discovery ) in a term (Fig. 2h ).

Discovery EE students (Fig. 3 ), roughly by definition, obtained lower course grades ( p < 0.0001, Fig. 3a ) and higher final Discovery grades ( p = 0.0004, Fig. 3b ) than non-EE students. This cohort of students exhibited program grades higher than classmates (Fig. 3c–h ); these differences were significant in every category with the exception of essays, where they outperformed to a significantly lesser degree ( p = 0.097; Fig. 3c ). There was no statistically significant difference in EE vs. non-EE student classroom attendance ( p = 0.85; Fig. 3i, j ). There were only four single day absences in Discovery within the EE subset; however, this difference was not statistically significant ( p = 0.074).

The “Exceeds Expectations” (EE) subset of students (defined as those who received a combined Discovery grade ≥1 SD (18.0%) higher than their final course grade) performed ( a ) lower on their final course grade and ( b ) higher in the Discovery program as a whole when compared to their classmates. d – h EE students received significantly higher grades on each Discovery deliverable than their classmates, except for their ( c ) introductory essays and ( h ) final presentations. The EE subset also tended ( i ) to have a higher relative rate of attendance during Discovery sessions but no difference in ( j ) classroom attendance. N = 99 EE students and 169 non-EE students (268 total). Grade data expressed as mean ± SEM.

Discovery MT students (Fig. 4 ), although not receiving significantly higher grades in class than students participating in the program only one time ( p = 0.29, Fig. 4a ), were observed to obtain higher final Discovery grades than single-term students ( p = 0.0067, Fig. 4b ). Although trends were less pronounced for individual MT student deliverables (Fig. 4c–h ), this student group performed significantly better on the progress report ( p = 0.0021; Fig. 4f ). Trends of higher performance were observed for initial proposals and final presentations ( p = 0.081 and 0.056, respectively; Fig. 4e, h ); all other deliverables were not significantly different between MT and non-MT students (Fig. 4c, d, g ). Attendance in Discovery ( p = 0.22) was also not significantly different between MT and non-MT students, although MT students did miss significantly less class time ( p = 0.010) (Fig. 4i, j ). Longitudinal assessment of individual deliverables for MT students that participated in three or more Discovery terms (Fig. 5 ) further highlights trend in improvement (Fig. 2f ). Greater performance over terms of participation was observed for essay ( p = 0.0295, Fig. 5a ), client meeting ( p = 0.0003, Fig. 5b ), proposal ( p = 0.0004, Fig. 5c ), progress report ( p = 0.16, Fig. 5d ), poster ( p = 0.0005, Fig. 5e ), and presentation ( p = 0.0295, Fig. 5f ) deliverable grades; these trends were all significant with the exception of the progress report ( p = 0.16, Fig. 5d ) owing to strong performance in this deliverable in all terms.

The “multi-term” (MT) subset of students (defined as having attended more than one term of Discovery ) demonstrated favorable performance in Discovery , ( a ) showing no difference in course grade compared to single-term students, but ( b outperforming them in final Discovery grade. Independent of the number of times participating in Discovery , MT students did not score significantly differently on their ( c ) essay, ( d ) client meeting, or ( g ) poster. They tended to outperform their single-term classmates on the ( e ) proposal and ( h ) final presentation and scored significantly higher on their ( f ) progress report. MT students showed no statistical difference in ( i ) Discovery attendance but did show ( j ) higher rates of classroom attendance than single-term students. N = 174 MT instances of student participation (76 individual students) and 94 single-term students. Grade data expressed as mean ± SEM.

Longitudinal assessment of a subset of MT student participants that participated in three ( N = 16) or four ( N = 3) terms presents a significant trend of improvement in their ( a ) essay, ( b ) client meeting, ( c ) proposal, ( e ) poster, and ( f ) presentation grade. d Progress report grades present a trend in improvement but demonstrate strong performance in all terms, limiting potential for student improvement. Grade data are presented as individual student performance; each student is represented by one color; data is fitted with a linear trendline (black).

Finally, the expansion of Discovery to a second school of lower LOI (i.e., nominally higher aggregate SES) allowed for the assessment of program impact in a new population over 2 terms of programming. A significant ( p = 0.040) divergence in Discovery vs. course grade distribution from the theoretical 1:1 relationship was found in the new cohort (S 1 Appendix , Fig. S 1 ), in keeping with the pattern established in this study.

Teacher perceptions

Qualitative observation in the classroom by high school teachers emphasized the value students independently placed on program participation and deliverables. Throughout the term, students often prioritized Discovery group assignments over other tasks for their STEM courses, regardless of academic weight and/or due date. Comparing within this student population, teachers spoke of difficulties with late and incomplete assignments in the regular curriculum but found very few such instances with respect to Discovery -associated deliverables. Further, teachers speculated on the good behavior and focus of students in Discovery programming in contrast to attentiveness and behavior issues in their school classrooms. Multiple anecdotal examples were shared of renewed perception of student potential; students that exhibited poor academic performance in the classroom often engaged with high performance in this inquiry-focused atmosphere. Students appeared to take a sense of ownership, excitement, and pride in the setting of group projects oriented around scientific inquiry, discovery, and dissemination.

Student perceptions

Students were asked to consider and rank the academic difficulty (scale of 1–5, with 1 = not challenging and 5 = highly challenging) of the work they conducted within the Discovery learning model. Considering individual Discovery terms, at least 91% of students felt the curriculum to be sufficiently challenging with a 3/5 or higher ranking (Term 1: 87.5%, Term 2: 93.4%, Term 3: 85%, Term 4: 93.3%, Term 5: 100%), and a minimum of 58% of students indicating a 4/5 or higher ranking (Term 1: 58.3%, Term 2: 70.5%, Term 3: 67.5%, Term 4: 69.1%, Term 5: 86.4%) (Fig. 6a ).

a Histogram of relative frequency of perceived Discovery programming academic difficulty ranked from not challenging (1) to highly challenging (5) for each session demonstrated the consistently perceived high degree of difficulty for Discovery programming (total responses: 223). b Program participation increased student comfort (94.6%) with navigating lab work in a university or college setting (total responses: 220). c Considering participation in Discovery programming, students indicated their increased (72.4%) or decreased (10.1%) likelihood to pursue future experiences in STEM as a measure of program impact (total responses: 217). d Large majority of participating students (84.9%) indicated their interest for future participation in Discovery (total responses: 212). Students were given the opportunity to opt out of individual survey questions, partially completed surveys were included in totals.

The majority of students (94.6%) indicated they felt more comfortable with the idea of performing future work in a university STEM laboratory environment given exposure to university teaching facilities throughout the program (Fig. 6b ). Students were also queried whether they were (i) more likely, (ii) less likely, or (iii) not impacted by their experience in the pursuit of STEM in the future. The majority of participants (>82%) perceived impact on STEM interests, with 72.4% indicating they were more likely to pursue these interests in the future (Fig. 6c ). When surveyed at the end of term, 84.9% of students indicated they would participate in the program again (Fig. 6d ).

We have described an inquiry-based framework for implementing experiential STEM education in a BME setting. Using this model, we engaged 268 instances of student participation (170 individual students who participated 1–4 times) over five terms in project-based learning wherein students worked in peer-based teams under the mentorship of U of T trainees to design and execute the scientific method in answering a relevant research question. Collaboration between high school teachers and Discovery instructors allowed for high school student exposure to cutting-edge BME research topics, participation in facilitated inquiry, and acquisition of knowledge through scientific discovery. All assessments were conducted by high school teachers and constituted a fraction (10–15%) of the overall course grade, instilling academic value for participating students. As such, students exhibited excitement to learn as well as commitment to their studies in the program.

Through our observations and analysis, we suggest there is value in differential learning environments for students that struggle in a knowledge acquisition-focused classroom setting. In general, we observed a high level of academic performance in Discovery programming (Fig. 2a ), which was highlighted exceptionally in EE students who exhibited greater academic performance in Discovery deliverables compared to normal coursework (>18% grade improvement in relevant deliverables). We initially considered whether this was the result of strong students influencing weaker students; however, group organization within each course suggests this is not the case (Fig. 2d ). With the exception of one class in one term (24 participants assigned by their teacher), students were allowed to self-organize into working groups and they chose to work with other students of relatively similar academic performance (as indicated by course grade), a trend observed in other studies 31 , 32 . Remarkably, EE students not only excelled during Discovery when compared to their own performance in class, but this cohort also achieved significantly higher average grades in each of the deliverables throughout the program when compared to the remaining Discovery cohort (Fig. 3 ). This data demonstrates the value of an inquiry-based learning environment compared to knowledge-focused delivery in the classroom in allowing students to excel. We expect that part of this engagement was resultant of student excitement with a novel learning opportunity. It is however a well-supported concept that students who struggle in traditional settings tend to demonstrate improved interest and motivation in STEM when given opportunity to interact in a hands-on fashion, which supports our outcomes 4 , 33 . Furthermore, these outcomes clearly represent variable student learning styles, where some students benefit from a greater exchange of information, knowledge and skills in a cooperative learning environment 34 . The performance of the EE group may not be by itself surprising, as the identification of the subset by definition required high performers in Discovery who did not have exceptionally high course grades; in addition, the final Discovery grade is dependent on the component assignment grades. However, the discrepancies between EE and non-EE groups attendance suggests that students were engaged by Discovery in a way that they were not by regular classroom curriculum.

In addition to quantified engagement in Discovery observed in academic performance, we believe remarkable attendance rates are indicative of the value students place in the differential learning structure. Given the differences in number of Discovery days and implications of missing one day of regular class compared to this immersive program, we acknowledge it is challenging to directly compare attendance data and therefore approximate this comparison with consideration of learning time equivalence. When combined with other subjective data including student focus, requests to work on Discovery during class time, and lack of discipline/behavior issues, the attendance data importantly suggests that students were especially engaged by the Discovery model. Further, we believe the increased commute time to the university campus (students are responsible for independent transit to campus, a much longer endeavour than the normal school commute), early program start time, and students’ lack of familiarity with the location are non-trivial considerations when determining the propensity of students to participate enthusiastically in Discovery . We feel this suggests the students place value on this team-focused learning and find it to be more applicable and meaningful to their interests.

Given post-secondary admission requirements for STEM programs, it would be prudent to think that students participating in multiple STEM classes across terms are the ones with the most inherent interest in post-secondary STEM programs. The MT subset, representing students who participated in Discovery for more than one term, averaged significantly higher final Discovery grades. The increase in the final Discovery grade was observed to result from a general confluence of improved performance over multiple deliverables and a continuous effort to improve in a STEM curriculum. This was reflected in longitudinal tracking of Discovery performance, where we observed a significant trend of improved performance. Interestingly, the high number of MT students who were included in the EE group suggests that students who had a keen interest in science enrolled in more than one course and in general responded well to the inquiry-based teaching method of Discovery , where scientific method was put into action. It stands to reason that students interested in science will continue to take STEM courses and will respond favorably to opportunities to put classroom theory to practical application.

The true value of an inquiry-based program such as Discovery may not be based in inspiring students to perform at a higher standard in STEM within the high school setting, as skills in critical thinking do not necessarily translate to knowledge-based assessment. Notably, students found the programming equally challenging throughout each of the sequential sessions, perhaps somewhat surprising considering the increasing number of repeat attendees in successive sessions (Fig. 6a ). Regardless of sub-discipline, there was an emphasis of perceived value demonstrated through student surveys where we observed indicated interest in STEM and comfort with laboratory work environments, and desire to engage in future iterations given the opportunity. Although non-quantitative, we perceive this as an indicator of significant student engagement, even though some participants did not yield academic success in the program and found it highly challenging given its ambiguity.

Although we observed that students become more certain of their direction in STEM, further longitudinal study is warranted to make claim of this outcome. Additionally, at this point in our assessment we cannot effectively assess the practical outcomes of participation, understanding that the immediate effects observed are subject to a number of factors associated with performance in the high school learning environment. Future studies that track graduates from this program will be prudent, in conjunction with an ever-growing dataset of assessment as well as surveys designed to better elucidate underlying perceptions and attitudes, to continue to understand the expected benefits of this inquiry-focused and partnered approach. Altogether, a multifaceted assessment of our early outcomes suggests significant value of an immersive and iterative interaction with STEM as part of the high school experience. A well-defined divergence from knowledge-based learning, focused on engagement in critical thinking development framed in the cutting-edge of STEM, may be an important step to broadening student perspectives.

In this study, we describe the short-term effects of an inquiry-based STEM educational experience on a cohort of secondary students attending a non-specialized school, and suggest that the framework can be widely applied across virtually all subjects where inquiry-driven and mentored projects can be undertaken. Although we have demonstrated replication in a second cohort of nominally higher SES (S 1 Appendix , Supplementary Fig. 1 ), a larger collection period with more students will be necessary to conclusively determine impact independent of both SES and specific cohort effects. Teachers may also find this framework difficult to implement depending on resources and/or institutional investment and support, particularly if post-secondary collaboration is inaccessible. Offerings to a specific subject (e.g., physics) where experiments yielding empirical data are logistically or financially simpler to perform may be valid routes of adoption as opposed to the current study where all subject cohorts were included.

As we consider Discovery in a bigger picture context, expansion and implementation of this model is translatable. Execution of the scientific method is an important aspect of citizen science, as the concepts of critical thing become ever-more important in a landscape of changing technological landscapes. Giving students critical thinking and problem-solving skills in their primary and secondary education provides value in the context of any career path. Further, we feel that this model is scalable across disciplines, STEM or otherwise, as a means of building the tools of inquiry. We have observed here the value of differential inclusive student engagement and critical thinking through an inquiry-focused model for a subset of students, but further to this an engagement, interest, and excitement across the body of student participants. As we educate the leaders of tomorrow, we suggest that use of an inquiry-focused model such as Discovery could facilitate growth of a data-driven critical thinking framework.

In conclusion, we have presented a model of inquiry-based STEM education for secondary students that emphasizes inclusion, quantitative analysis, and critical thinking. Student grades suggest significant performance benefits, and engagement data suggests positive student attitude despite the perceived challenges of the program. We also note a particular performance benefit to students who repeatedly engage in the program. This framework may carry benefits in a wide variety of settings and disciplines for enhancing student engagement and performance, particularly in non-specialized school environments.

Study design and implementation

Participants in Discovery include all students enrolled in university-stream Grade 11 or 12 biology, chemistry, or physics at the participating school over five consecutive terms (cohort summary shown in Table 1 ). Although student participation in educational content was mandatory, student grades and survey responses (administered by high school teachers) were collected from only those students with parent or guardian consent. Teachers replaced each student name with a unique coded identifier to preserve anonymity but enable individual student tracking over multiple terms. All data collected were analyzed without any exclusions save for missing survey responses; no power analysis was performed prior to data collection.

Ethics statement

This study was approved by the University of Toronto Health Sciences Research Ethics Board (Protocol # 34825) and the Toronto District School Board External Research Review Committee (Protocol # 2017-2018-20). Written informed consent was collected from parents or guardians of participating students prior to the acquisition of student data (both post-hoc academic data and survey administration). Data were anonymized by high school teachers for maintenance of academic confidentiality of individual students prior to release to U of T researchers.

Educational program overview

Students enrolled in university-preparatory STEM classes at the participating school completed a term-long project under the guidance of graduate student instructors and undergraduate student mentors as a mandatory component of their respective course. Project curriculum developed collaboratively between graduate students and participating high school teachers was delivered within U of T Faculty of Applied Science & Engineering (FASE) teaching facilities. Participation allows high school students to garner a better understanding as to how undergraduate learning and career workflows in STEM vary from traditional high school classroom learning, meanwhile reinforcing the benefits of problem solving, perseverance, teamwork, and creative thinking competencies. Given that Discovery was a mandatory component of course curriculum, students participated as class cohorts and addressed questions specific to their course subject knowledge base but related to the defined global health research topic (Fig. 1 ). Assessment of program deliverables was collectively assigned to represent 10–15% of the final course grade for each subject at the discretion of the respective STEM teacher.

The Discovery program framework was developed, prior to initiation of student assessment, in collaboration with one high school selected from the local public school board over a 1.5 year period of time. This partner school consistently scores highly (top decile) in the school board’s Learning Opportunities Index (LOI). The LOI ranks each school based on measures of external challenges affecting its student population therefore schools with the greatest level of external challenge receive a higher ranking 35 . A high LOI ranking is inversely correlated with socioeconomic status (SES); therefore, participating students are identified as having a significant number of external challenges that may affect their academic success. The mandatory nature of program participation was established to reach highly capable students who may be reluctant to engage on their own initiative, as a means of enhancing the inclusivity and impact of the program. The selected school partner is located within a reasonable geographical radius of our campus (i.e., ~40 min transit time from school to campus). This is relevant as participating students are required to independently commute to campus for Discovery hands-on experiences.

Each program term of Discovery corresponds with a five-month high school term. Lead university trainee instructors (3–6 each term) engaged with high school teachers 1–2 months in advance of high school student engagement to discern a relevant overarching global healthcare theme. Each theme was selected with consideration of (a) topics that university faculty identify as cutting-edge biomedical research, (b) expertise that Discovery instructors provide, and (c) capacity to showcase the diversity of BME. Each theme was sub-divided into STEM subject-specific research questions aligning with provincial Ministry of Education curriculum concepts for university-preparatory Biology, Chemistry, and Physics 9 that students worked to address, both on-campus and in-class, during a term-long project. The Discovery framework therefore provides students a problem-based learning experience reflective of an engineering capstone design project, including a motivating scientific problem (i.e., global topic), subject-specific research question, and systematic determination of a professional recommendation addressing the needs of the presented problem.

Discovery instructors were volunteers recruited primarily from graduate and undergraduate BME programs in the FASE. Instructors were organized into subject-specific instructional teams based on laboratory skills, teaching experience, and research expertise. The lead instructors of each subject (the identified 1–2 trainees that built curriculum with high school teachers) were responsible to organize the remaining team members as mentors for specific student groups over the course of the program term (~1:8 mentor to student ratio).

All Discovery instructors were familiarized with program expectations and trained in relevant workspace safety, in addition to engagement at a teaching workshop delivered by the Faculty Advisor (a Teaching Stream faculty member) at the onset of term. This workshop was designed to provide practical information on teaching and was co-developed with high school teachers based on their extensive training and experience in fundamental teaching methods. In addition, group mentors received hands-on training and guidance from lead instructors regarding the specific activities outlined for their respective subject programming (an exemplary term of student programming is available in S 2 Appendix) .

Discovery instructors were responsible for introducing relevant STEM skills and mentoring high school students for the duration of their projects, with support and mentorship from the Faculty Mentor. Each instructor worked exclusively throughout the term with the student groups to which they had been assigned, ensuring consistent mentorship across all disciplinary components of the project. In addition to further supporting university trainees in on-campus mentorship, high school teachers were responsible for academic assessment of all student program deliverables (Fig. 1 ; the standardized grade distribution available in S 3 Appendix ). Importantly, trainees never engaged in deliverable assessment; for continuity of overall course assessment, this remained the responsibility of the relevant teacher for each student cohort.

Throughout each term, students engaged within the university facilities four times. The first three sessions included hands-on lab sessions while the fourth visit included a culminating symposium for students to present their scientific findings (Fig. 1 ). On average, there were 4–5 groups of students per subject (3–4 students per group; ~20 students/class). Discovery instructors worked exclusively with 1–2 groups each term in the capacity of mentor to monitor and guide student progress in all project deliverables.

After introducing the selected global research topic in class, teachers led students in completion of background research essays. Students subsequently engaged in a subject-relevant skill-building protocol during their first visit to university teaching laboratory facilities, allowing opportunity to understand analysis techniques and equipment relevant for their assessment projects. At completion of this session, student groups were presented with a subject-specific research question as well as the relevant laboratory inventory available for use during their projects. Armed with this information, student groups continued to work in their classroom setting to develop group-specific experimental plans. Teachers and Discovery instructors provided written and oral feedback, respectively , allowing students an opportunity to revise their plans in class prior to on-campus experimental execution.

Once at the relevant laboratory environment, student groups executed their protocols in an effort to collect experimental data. Data analysis was performed in the classroom and students learned by trial & error to optimize their protocols before returning to the university lab for a second opportunity of data collection. All methods and data were re-analyzed in class in order for students to create a scientific poster for the purpose of study/experience dissemination. During a final visit to campus, all groups presented their findings at a research symposium, allowing students to verbally defend their process, analyses, interpretations, and design recommendations to a diverse audience including peers, STEM teachers, undergraduate and graduate university students, postdoctoral fellows and U of T faculty.

Data collection

Teachers evaluated their students on the following associated deliverables: (i) global theme background research essay; (ii) experimental plan; (iii) progress report; (iv) final poster content and presentation; and (v) attendance. For research purposes, these grades were examined individually and also as a collective Discovery program grade for each student. For students consenting to participation in the research study, all Discovery grades were anonymized by the classroom teacher before being shared with study authors. Each student was assigned a code by the teacher for direct comparison of deliverable outcomes and survey responses. All instances of “Final course grade” represent the prorated course grade without the Discovery component, to prevent confounding of quantitative analyses.

Survey instruments were used to gain insight into student attitudes and perceptions of STEM and post-secondary study, as well as Discovery program experience and impact (S 4 Appendix ). High school teachers administered surveys in the classroom only to students supported by parental permission. Pre-program surveys were completed at minimum 1 week prior to program initiation each term and exit surveys were completed at maximum 2 weeks post- Discovery term completion. Surveys results were validated using a principal component analysis (S 1 Appendix , Supplementary Fig. 2 ).

Identification and comparison of population subsets

From initial analysis, we identified two student subpopulations of particular interest: students who performed ≥1 SD [18.0%] or greater in the collective Discovery components of the course compared to their final course grade (“EE”), and students who participated in Discovery more than once (“MT”). These groups were compared individually against the rest of the respective Discovery population (“non-EE” and “non-MT”, respectively ). Additionally, MT students who participated in three or four (the maximum observed) terms of Discovery were assessed for longitudinal changes to performance in their course and Discovery grades. Comparisons were made for all Discovery deliverables (introductory essay, client meeting, proposal, progress report, poster, and presentation), final Discovery grade, final course grade, Discovery attendance, and overall attendance.

Statistical analysis

Student course grades were analyzed in all instances without the Discovery contribution (calculated from all deliverable component grades and ranging from 10 to 15% of final course grade depending on class and year) to prevent correlation. Aggregate course grades and Discovery grades were first compared by paired t-test, matching each student’s course grade to their Discovery grade for the term. Student performance in Discovery ( N = 268 instances of student participation, comprising 170 individual students that participated 1–4 times) was initially assessed in a linear regression of Discovery grade vs. final course grade. Trends in course and Discovery performance over time for students participating 3 or 4 terms ( N = 16 and 3 individuals, respectively ) were also assessed by linear regression. For subpopulation analysis (EE and MT, N = 99 instances from 81 individuals and 174 instances from 76 individuals, respectively ), each dataset was tested for normality using the D’Agostino and Pearson omnibus normality test. All subgroup comparisons vs. the remaining population were performed by Mann–Whitney U -test. Data are plotted as individual points with mean ± SEM overlaid (grades), or in histogram bins of 1 and 4 days, respectively , for Discovery and class attendance. Significance was set at α ≤ 0.05.

Reporting summary

Further information on research design is available in the Nature Research Reporting Summary linked to this article.

Data availability

The data that support the findings of this study are available upon reasonable request from the corresponding author DMK. These data are not publicly available due to privacy concerns of personal data according to the ethical research agreements supporting this study.

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Acknowledgements

This study has been possible due to the support of many University of Toronto trainee volunteers, including Genevieve Conant, Sherif Ramadan, Daniel Smieja, Rami Saab, Andrew Effat, Serena Mandla, Cindy Bui, Janice Wong, Dawn Bannerman, Allison Clement, Shouka Parvin Nejad, Nicolas Ivanov, Jose Cardenas, Huntley Chang, Romario Regeenes, Dr. Henrik Persson, Ali Mojdeh, Nhien Tran-Nguyen, Ileana Co, and Jonathan Rubianto. We further acknowledge the staff and administration of George Harvey Collegiate Institute and the Institute of Biomedical Engineering (IBME), as well as Benjamin Rocheleau and Madeleine Rocheleau for contributions to data collation. Discovery has grown with continued support of Dean Christopher Yip (Faculty of Applied Science and Engineering, U of T), and the financial support of the IBME and the National Science and Engineering Research Council (NSERC) PromoScience program (PROSC 515876-2017; IBME “Igniting Youth Curiosity in STEM” initiative co-directed by DMK and Dr. Penney Gilbert). LDH and NIC were supported by Vanier Canada graduate scholarships from the Canadian Institutes of Health Research and NSERC, respectively . DMK holds a Dean’s Emerging Innovation in Teaching Professorship in the Faculty of Engineering & Applied Science, U of T.

Author information

These authors contributed equally: Locke Davenport Huyer, Neal I. Callaghan.

Authors and Affiliations

Institute of Biomedical Engineering, University of Toronto, Toronto, ON, Canada

Locke Davenport Huyer, Neal I. Callaghan, Andrey I. Shukalyuk & Dawn M. Kilkenny

Chemical Engineering and Applied Chemistry, University of Toronto, Toronto, ON, Canada

Locke Davenport Huyer

Translational Biology and Engineering Program, Ted Rogers Centre for Heart Research, University of Toronto, Toronto, ON, Canada

Neal I. Callaghan

George Harvey Collegiate Institute, Toronto District School Board, Toronto, ON, Canada

Sara Dicks, Edward Scherer & Margaret Jou

Institute for Studies in Transdisciplinary Engineering Education & Practice, University of Toronto, Toronto, ON, Canada

Dawn M. Kilkenny

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Contributions

LDH, NIC and DMK conceived the program structure, designed the study, and interpreted the data. LDH and NIC ideated programming, coordinated execution, and performed all data analysis. SD, ES, and MJ designed and assessed student deliverables, collected data, and anonymized data for assessment. SD assisted in data interpretation. AIS assisted in programming ideation and design. All authors provided feedback and approved the manuscript that was written by LDH, NIC and DMK.

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Correspondence to Dawn M. Kilkenny .

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Davenport Huyer, L., Callaghan, N.I., Dicks, S. et al. Enhancing senior high school student engagement and academic performance using an inclusive and scalable inquiry-based program. npj Sci. Learn. 5 , 17 (2020). https://doi.org/10.1038/s41539-020-00076-2

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Beginners' Learning Experiences in Qualitative Research: Inputs for Curriculum Enhancement of Senior High School in Practical Research

2019, JPAIR Institutional Research Vol. 13

'Beginner Researchers' refer to the Senior High School Students learning Qualitative Research for the first time. Qualitative Research is one of the Applied Track subjects offered for the SHS and is deemed to be relatively new for the students. This study aimed to describe the experiences of beginner researchers on learning Qualitative Research. Specifically, on the questions: How they find learning Qualitative Research for the first time; their learning strategies; teachers mentoring styles as experienced by them; Learners' collaboration and leadership; their challenges and the implications to the teaching and learning process. This study utilized Descriptive Qualitative Research as a research design. There were two sets of focused group discussions conducted one group with 8 participants, and the other group with six participants during the actual interview. Beginner researchers' view Qualitative Research has rigorous process that requires good communication and social skill; difficult subject; provides new knowledge and experiences; and interesting subject. Repetitive teaching and the prompt feedback mechanisms on students' output were teacher's mentoring strategies while learning together as co-learners; Learners' collaboration; and delegation of tasks were the identified concepts on learners learning strategies. The challenges of the beginner researches were both on the group dynamics and on the technicality of the methodology. The results implied reviewing the curriculum on Practical Research Subject and contextualize the process based on the actual needs of the students based on how it has been delivered for the past years of the Senior High School implementation; coming up with a common teaching guide or module without deviating from the prescribed curriculum guide, to be used by the teachers handling Qualitative Research subject and intensifying the coordination of the learning contents between Practical Research subject and Writing-related subject in the curriculum.

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This is a qualitative study which explores different factors affecting the career decision-making of Grade 10 students leading to a choice of becoming a teacher. A total of 388 students participated in the study with 40 students from Metro Manila who conveyed they are pursuing teaching as a career. Data analysis involved coding and categorizing of responses with defining of emerging themes related to studentsâ€™ motivation to teach. It had two levels of data collection: survey questionnaire to gather studentâ€™s perceptions about teachers and teaching as a profession and a focus-group discussion to validate salient themes that emerged from the responses to the survey questions. The findings revealed that early exposures to the role of teachers and influence of close family members contributed to the preference to pursue education as a program in tertiary education . Moreover, the student-participants had positive regard for teachers and the teaching profession. The students describe...

RD Deo , Abraham Deogracias

Knowing that education has been inaccessible and ineffective to some students in the Philippines, it is crucial to know the efficacy and success of the new learning setup during this time of the pandemic to assess if these new modalities are beneficial to the students or not. This paper reviewed and studied the various perceptions and lived experiences of selected students in a private university in Manila regarding online classes amidst the pandemic. Using a phenomenological approach, the researchers gathered data by interviewing 15 students who are attending online classes. Findings and results were drawn on the themes created by the researchers. It can be seen that majority of the students find online classes ineffective and only cater the privileged. Furthermore, lessons and discussions are difficult to digest using the current mode of learning. These findings signify a need to improve the mode of learning in order to provide a quality and effective education to students despite the current crisis faced by the country. Keywords: distance learning, online learning, online classes

International Journal for Arts and Humanities Studies

Dr. JOHN ERWIN PRADO PEDROSO

This study aimed to find out mentees' needs from a mentoring program, mentor characteristics that are considered desirable by mentees, and to develop the mentoring toolkit. It was based on a developmental research design. Through purposive or selective sampling, it involved eight (8) informants. Focus Group Discussion (FGD) and mentoring chat records were used to collect data, which was then analyzed using NVivo Software under the guidance of the qualitative content analysis technique. A duly-validated researcher-made instrument was used to evaluate the toolkit's acceptability. Mentees' needs included study abilities, thinking skills, resource management, teaching skills, personal and family concerns, and articulated mentors' desirable characteristics, according to part one (1) of this study. The five (5) components of the toolkit that was developed were listed in the second (2) portion of this study. Targets, Ideas, Plans, and Supplements were the four (4) parts of the toolkit. The toolkit also includes six (6) mentoring blocks, and the physical attributes, objectives, content, usefulness, and self-help aspects of the toolkit were all evaluated outstanding (M = 3.92). Mentoring programs are useful in determining the needs of mentees as well as providing a basis for developing materials that are useful to both mentors and mentees.

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