applied and basic research examples

The difference between basic and applied research – Key differences

 In a rapidly evolving landscape of scientific and technological innovation, understanding the inner workings of research is increasingly vital.

Whether you’re a seasoned academic, an industry professional, or simply a curious individual, comprehending the difference between applied and basic research is used to provide critical insights into how knowledge is both generated and utilized. 

These two kinds of research, while distinct in their aims and methodologies, often serve as two sides of the same coin, each with its unique contributions and challenges.

By examining research outcomes, funding sources, criticisms, and examples from both categories, this comprehensive blog demystifies the often blurry line that separates basic research vs applied research methods. 

If you’ve ever pondered which type of research to use for a project or questioned how basic principles derived from foundational studies turn into real-world applications, this exploration offers a lens into the multifaceted world of research.

Key Differences Between Basic and Applied Research

In the realm of scientific inquiry, understanding the key differences between basic and applied research is crucial. These two types of research serve distinct purposes and often utilize different research methods, but they are interconnected in the quest for new knowledge.

Basic Research

Basic research focuses on the acquisition of fundamental understanding without immediate application in mind. 

For example, when Einstein was formulating his theories in physics, he was conducting basic research.

He sought to explain the laws governing the universe but didn’t necessarily aim to solve a practical problem.

Basic research often gets criticized for not having apparent applications, but it lays the groundwork for future advancements. Years after Einstein, his theories paved the way for the development of laser technology, used in everything from DVDs to medical procedures.

Applied Research

Applied research focuses on solving specific, practical problems. It’s the type of research used when health psychologists want to tackle rising rates of cardiovascular diseases, for instance. Conducting applied research, they may investigate effective messaging strategies to encourage healthier diets, aiming to produce tangible benefits in public health. 

Applied research seeks to utilize scientific understanding for a particular real-world issue.

The line between basic and applied research is not always clear-cut. While applied research may yield new knowledge that contributes to a broader understanding of human behavior, basic research may inadvertently lead to practical applications.

For instance, research in quantum mechanics, which was initially considered highly theoretical, has found applications in modern computing.

It’s also worth noting that the research methods employed may differ based on the type of research being conducted.

Applied research often employs methods like case studies, surveys, or controlled experiments aimed at resolving a specific issue, whereas basic research might involve more theoretical or observational methods aimed at general understanding.

While basic research often explores theoretical concepts without an immediate application, applied research focuses on real-world issues. Both are integral in advancing our collective knowledge and sometimes unexpectedly complement each other in offering solutions to challenges we face.

 What’s better? Basic vs applied research?

The debate between the impact of basic and applied research is an enduring one, and both sides have compelling arguments. The key differences between the two types of research are their aims and methods.

• Basic research focuses on generating new knowledge and understanding fundamental principles, often without an immediate application in mind.
• Applied research, on the other hand, seeks to solve specific problems and is often guided by practical outcomes.

One could argue, as some experts do, that basic research often has a more profound long-term impact. For instance, the discovery of the structure of DNA was a feat of basic research.

Today, it serves as the cornerstone for a multitude of applied research projects in genetics, forensics, and medicine. Another example of basic research is the development of quantum mechanics, which initially appeared to be an abstract field but has led to the invention of technologies like semiconductors and MRI machines.

Conversely, applied research focuses on immediate needs and therefore, its impact can be more immediately visible.

Examples of applied research include the development of COVID-19 vaccines or the creation of energy-efficient technologies. This type of research often uses methods and knowledge generated by basic research to achieve its goals.

The contention that applied research can be counterproductive due to its narrow focus and the push to monetize findings is a nuanced issue.

While entrepreneurship courses in academic settings may appear to detract from the purity of research, they can also offer researchers tools to transform basic research into applied solutions, bridging the gap between theory and practice.

The two aren’t mutually exclusive; basic research and applied research often go hand in hand.

Researchers conducting applied research may stumble upon findings that contribute to new knowledge, just as those conducting basic research may see their work result in unexpected applications.

Examples of basic research vs applied research

Basic research:.

• Genetic Sequencing : Research to understand the sequences of DNA and what each gene does.
• Particle Physics : Experiments in places like CERN to understand the basic building blocks of the universe.
• Social Psychology Theories : Studying human behavior in a controlled environment to understand basic social interactions.
• Climate Models : Researching the fundamental mechanisms that control climate change without necessarily looking for immediate solutions.
• Pure Mathematics : Investigating abstract mathematical concepts that may not have an immediate application.
• Astronomy : Observing and mapping distant celestial bodies to understand the universe’s structure.
• Brain Mapping : Basic research on how neurons communicate within the brain, without a targeted application.
• Evolutionary Biology : Studying how organisms evolve over time to adapt to their environment.

Applied Research:

• Pharmaceuticals : Developing new drugs based on an understanding of disease mechanisms.
• Renewable Energy : Researching better solar panels or wind turbines to harness energy more efficiently.
• Market Research : Understanding consumer behavior to improve product design or advertising strategies.
• Educational Methods : Evaluating teaching strategies to improve educational outcomes.
• Medical Procedures : Research to develop new surgical techniques or medical devices.
• Cybersecurity : Designing new types of encryption or security measures based on vulnerabilities.
• Agricultural Techniques : Researching better ways to increase crop yield or protect against pests.
• Transportation : Developing new materials for lighter, more fuel-efficient vehicles.

Careers in basic research and applied research

Here are some examples of careers that use mainly basic or applied research – but some scientists do a mixture of both.

Careers in Basic Research:

• Theoretical Physicist : Focuses on understanding the fundamental laws governing physical phenomena.
• Astrophysicist : Studies the properties and behaviors of celestial bodies and the universe.
• Mathematician : Conducts research in pure mathematics, exploring abstract concepts.
• Geneticist : Investigates genes, genetic variation, and heredity in organisms.
• Neuroscientist : Researches the complexities of the nervous system, including the brain.
• Biochemist : Studies the chemical processes within and related to living organisms.
• Cognitive Psychologist : Explores the mental processes behind human behavior.
• Archaeologist : Conducts research to understand human history and pre-history through the excavation of sites and the analysis of artifacts.
• Geologist : Studies the Earth’s physical structure and substance, its history, and the processes that act on it.

Careers in Applied Research:

• Pharmaceutical Researcher : Develops new drugs or medical treatments.
• Environmental Consultant : Provides advice on environmental regulations and conducts research to solve environmental problems.
• Data Scientist : Uses statistical models to analyze data for actionable insights, often for businesses.
• Mechanical Engineer : Designs and tests new devices, often focused on solving specific mechanical problems.
• Market Research Analyst : Conducts research to understand market trends and consumer behavior.
• Clinical Psychologist : Applies psychological research to treat mental health disorders.
• Agricultural Scientist : Researches ways to improve the sustainability and productivity of agricultural systems.
• Software Developer : Creates new software based on research into user needs, technological advancements, or problem-solving.
• Nutritional Epidemiologist : Studies the relationship between diet and health outcomes, often aiming for public health applications.

Wrapping up – applied research and basic research

As we’ve journeyed through this comprehensive exploration of applied research and basic research, it’s clear that each holds its unique place in the expansive world of research.

The two are like siblings—different in personality but stemming from the same family of intellectual inquiry.

Basic research is theoretical and often provides the foundation for applied research. On the flip side, applied research is practical in nature and focuses on solving immediate real-world problems.

Despite their differences, one can’t exist optimally without the other.

Basic research helps pave the way for advancements in applied research, while findings from applied research can loop back to enrich our foundational knowledge.

While basic research tends to engage with more conceptual questions, applied research is driven by practical problems that require immediate solutions. These different types of research methods can serve different purposes but are not mutually exclusive.

The world of research is enriched by the interplay between basic and applied research methods. Whether theoretical or practical, long-term or immediate, both contribute significantly to our understanding and make up the vibrant tapestry of research that seeks to answer questions, solve problems, and improve our lives.

And there we have it—your guided tour through the landscape of applied and basic research is complete!

Whether you’re an aspiring researcher, an industry professional, or a curious individual, understanding these key differences between basic and applied research will surely add a valuable layer to your perspective.

Dr Andrew Stapleton has a Masters and PhD in Chemistry from the UK and Australia. He has many years of research experience and has worked as a Postdoctoral Fellow and Associate at a number of Universities. Although having secured funding for his own research, he left academia to help others with his YouTube channel all about the inner workings of academia and how to make it work for you.

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Methodology

• Types of Research Designs Compared | Guide & Examples

Types of Research Designs Compared | Guide & Examples

Published on June 20, 2019 by Shona McCombes . Revised on June 22, 2023.

When you start planning a research project, developing research questions and creating a  research design , you will have to make various decisions about the type of research you want to do.

There are many ways to categorize different types of research. The words you use to describe your research depend on your discipline and field. In general, though, the form your research design takes will be shaped by:

• The type of knowledge you aim to produce
• The type of data you will collect and analyze
• The sampling methods , timescale and location of the research

This article takes a look at some common distinctions made between different types of research and outlines the key differences between them.

Table of contents

Types of research aims, types of research data, types of sampling, timescale, and location, other interesting articles.

The first thing to consider is what kind of knowledge your research aims to contribute.

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The next thing to consider is what type of data you will collect. Each kind of data is associated with a range of specific research methods and procedures.

Finally, you have to consider three closely related questions: how will you select the subjects or participants of the research? When and how often will you collect data from your subjects? And where will the research take place?

Keep in mind that the methods that you choose bring with them different risk factors and types of research bias . Biases aren’t completely avoidable, but can heavily impact the validity and reliability of your findings if left unchecked.

Choosing between all these different research types is part of the process of creating your research design , which determines exactly how your research will be conducted. But the type of research is only the first step: next, you have to make more concrete decisions about your research methods and the details of the study.

Read more about creating a research design

If you want to know more about statistics , methodology , or research bias , make sure to check out some of our other articles with explanations and examples.

• Normal distribution
• Degrees of freedom
• Null hypothesis
• Discourse analysis
• Control groups
• Mixed methods research
• Non-probability sampling
• Quantitative research
• Ecological validity

Research bias

• Rosenthal effect
• Implicit bias
• Cognitive bias
• Selection bias
• Negativity bias
• Status quo bias

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Science in School

What is it good for basic versus applied research teach article.

Author(s): Martin McHugh, Marcus Baumann, Sarah Hayes, F. Jerry Reen, Laurie Ryan, Davide Tiana, Jessica Whelan

Basic research is often misunderstood by the public and misconstrued by the media. Try this role play to learn how research is funded and how basic research advances and protects society.

In 2019, an international research group published a paper examining the effect of the song Scary Monsters and Nice Sprites by Skrillex on the breeding behaviours of mosquitos. [ 1 ]  The paper became a viral news story, with many media outlets using the ‘obscure’ research story to generate clicks. However, the research concluded that, when mosquitos were exposed to the song, they bit less and refrained from mating. The paper generated equal amounts of praise and criticism but highlights the potential of basic research and creative thinking in science. Indeed, the historical problem with basic research is the lack of immediate commercial objectives. To non-scientists, basic research can seem like a waste of money, whereas applied research, designed to solve practical problems with obvious scientific and societal benefits, seems like a better use of resources.

The following activity will bring the debate into the classroom and allow students to explore the pros and cons of basic and applied research. Using an argumentation framework, students will discuss the merits of a variety of research projects, with updates to show how some of them later turned out to be important for vaccine development for COVID-19.

What kinds of research should be funded?

In this activity, students will be divided into groups of funders and scientists. Using the materials provided, the scientists will pitch their research proposals to the funders, who will have €100 000 at their disposal. The activity will also provide cues to promote argumentation among students to develop critical thinking, reasoning, communication, and scientific literacy skills. [ 2 ]

Learning objectives and context

After the activity, students should understand

• how scientific research is funded and that this involves difficult decisions;
• the difference between basic and applied research;
• how applied research relies on basic research findings, and that it is difficult to predict what might become useful.

To set the scene, students should be asked who they think funds scientific research. Students will generate multiple answers, from the government to universities and industry. Truthfully, funding can come from a variety of sources and can be public, private, national, or international.

The next question is how do funding bodies select what research should be funded. Scientific research is often broadly divided into two types: basic research (also called fundamental research) and applied research.

• Basic research is about pushing the boundaries of our understanding and generating new knowledge. An example is researching how a physiological process works at the molecular level.
• Applied research involves applying existing knowledge to create solutions to specific problems. An example is developing a treatment for a disease.

However, many research projects have elements of both basic and applied research. Research scientists from around the world must compete and push the merits of their work to get funding.

The following role-play activity will put students in the shoes of both the funding bodies and scientists. In groups, students will be asked to pitch their project proposal to the funders, who will ultimately decide how to allocate €100 000 to a variety of projects.

A key element of this lesson is to encourage debate and argumentation. Students acting as scientists should try to convince funders with their words. They should be encouraged to make claims, rebuttals, and back up their statements with data, if possible. Each scientist will have an individual text that will give them the information to argue effectively. To support debate, funders are given a list of key questions, along with more probing questions. This activity can also be extended over multiple lessons to allow students time to debate.

Funder information sheet

Project proposal cards

Discussion cards

• For this role-play activity, divide students into groups of five or six. Each group requires four scientists and at least one funder.
• Hand out the project proposal cards to the four scientists in each group.There are four project proposals and each scientist should get a different one. One of these proposals is highly applied, while the others are more basic. All funders receive the same information sheet and can allocate €100 000. If there are two funders in a single group, then they must come to a consensus.
• Give students 10 minutes to read over their documents. Funders need to be aware of the key questions (on the information sheet) they can use to assess the proposals. Scientists need to be aware of the key arguments they need to make to receive funding (on the proposal cards).
• Each scientist then gets 2 minutes uninterrupted to make their ‘pitch’ for funding. Once complete, funders need to ask key questions and all scientists are allowed argue their positions against each other. This should take around 15 minutes.
• At the end of the activity, funders are asked to fill in the funding-allocation table at the bottom of their information sheet. This is to be kept private.
• In turn, ask the funders from each group to the front of the class. The table on their sheets can be copied onto the board and funders can fill this out. Once complete, they need to give a brief justification to the class for their decision.
• Throughout this process, ask the students if they are seeing any patterns emerging in the funding between groups.
• Ask whether the students think each project is more basic or applied.
• Next, hand out the discussion cards to each group. Project 3 is purely applied and has a clear link to vaccines, but these cards describe how proposals 1, 2, and 4 turned out to be fundamental to the development of the COVID-19 vaccine in unexpected ways.
• Get the class to discuss whether this new information would have changed their funding decisions.
• Discuss whether the applications envisioned by the researchers were necessarily those that turned out to be important.

As previously stated, the goal of this activity is that students understand how research is funded and the differences between applied and basic research. The activity is designed to highlight how basic research often forms the foundation for applied research. Both types of research are important, but basic research can be perceived negatively in the eyes of the public. It is often impossible to predict how knowledge gained through a basic research project could be vital for an application in the future. Often multiple scientific advances have to be combined for an applied impact. Sometimes, scientists must accept that they may not be able to identify an immediate application for new knowledge generated. However, without new knowledge, we may lack the foundation for future applications that could be years away.

In this example, the three more basic research proposals proved to be vital to the final application. This can be easily illustrated with proposal cards 1 and 3. Proposal card 1 discusses modified mRNA, and this research underpinned the manufacture of the COVID-19 vaccine. The two proposals are so closely linked that you can replace the word ‘polynucleotide(s)’ with mRNA on proposal card 3 and the document still makes perfect sense.

As a follow up to this activity, ask students to go online and find the most obscure and weird basic scientific research (that has been published in a peer-reviewed journal) they can find. The Ig Nobel Prizes are a good source of inspiration for this. Similar to the mosquito example used in the introduction to this activity, get the students to find practical applications behind the headlines and articles.

[1] Dieng H et al. (2019). The electronic song “Scary Monsters and Nice Sprites” reduces host attack and mating success in the dengue vector Aedes aegypti . Acta tropica 194 :93–99. doi: 10.1016/j.actatropica.2019.03.027

[2] Erduran S, Ozdem Y, Park JY (2015). Research trends on argumentation in science education: a journal content analysis from 1998–2014 . International Journal of STEM Education , 2 :5. doi: 10.1186/s40594-015-0020-1.

• Discover CRISPR-Cas9 and how it revolutionized gene editing: Chan H (2016)  Faster, cheaper, CRISPR: the new gene technology revolution .  Science in School   38 :18–21.
• Read an article on different techniques to resolve and predict protein structures: Heber S (2021)  From gaming to cutting-edge biology: AI and the protein folding problem .  Science in School   52 .
• Read an article on how modern vaccines work: Paréj K (2021)  Vaccines in the spotlight .  Science in School   53 .
• Visit the Annals of Improbable Research , which runs the Ig Nobel Prizes, to learn more about research that makes you laugh and then makes you think.
• Read a simple explanation of basic research and its importance from the National Institute of Health.
• Read a short article from Harvard University on the importance of basic research .
• Watch a video on the potential uses of CRISPR outside gene editing.
• Watch a video on how 50 years of fundamental research enabled the rapid development of mRNA vaccines for COVID-19.
• Read an article from STAT describing the main steps that – 50 years later – led to COVID-19 mRNA vaccines .
• Watch a video introducing the ESRF and its 41 beamlines .
• Read an article from Scientific American that underlines the important issue of research funding and final profits .
• Read an article from c&en magazine on synchrotrons and their uses .
• Read an   interview with Katalin Karikó  in  Scientific American  that discusses her role in developing the mRNA technology used in COVID-19 vaccines.

Dr Martin McHugh is the education and public engagement officer for SSPC , the Science Foundation Ireland (SFI) research centre for pharmaceuticals at the University of Limerick. Formerly a researcher in informal learning and part-time lecturer on science education, he has degrees from NUI Galway and the University of Edinburgh in environmental science and teaching. He is also a qualified secondary school science and biology teacher.

Dr Marcus Baumann is an assistant professor in the School of Chemistry at University College Dublin. He leads a research group aiming to develop new methods for the sustainable generation of drug-like molecules through the use of continuous-flow technologies. These methods are based on using light and enzymes in combination with machines to synthesise biologically active molecules.

Dr Sarah Hayes is the chief operating officer (COO) of SSPC . Sarah’s background is in physical chemistry and she received her PhD in Science Education. Sarah has many years of teaching experience as a physics and chemistry teacher. Through her various roles, she has been involved in research, curriculum development, and continuous professional development courses. Her most significant focus has been informal and non-formal learning and engagement.

Dr Jerry Reen is a lecturer in molecular microbial ecology at University College Cork. His research team study polymicrobial biofilm communities to understand molecular communication systems between species in disease and biotechnology. They also apply molecular technologies to harness biocatalytic proteins and bioactive compounds of marine origin.

Laurie Ryan is an assistant lecturer in general science at Athlone Institute of Technology (AIT). She is a former secondary school science teacher and conducts research in the area of STEM education and outreach. She is currently finishing her PhD examining argumentation in non-formal learning environments.

Dr Davide Tiana is a lecturer in inorganic chemistry at University College Cork. His independent group uses computational chemistry to study, understand, and explain chemistry. Their research goals range from developing new models to better explain chemical interactions (e.g., chemical bonding, dispersion forces) to the design of new molecules such as nanodrugs.

Dr Jessica Whelan is a lecturer at the University College Dublin School of Chemical and Bioprocess Engineering. Her research focuses on developing tools and approaches to optimize the production of proteins, vaccines, and cell and gene therapies. The aim is to make medicines available to patients at the highest quality and lowest cost possible.

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Encyclopedia for Writers

Writing with ai, applied research, basic research.

• © 2023 by Joseph M. Moxley - Founder, Writing Commons

Understand the difference between Applied Research and Basic Research .

Table of Contents

Research efforts are sometimes categorized by the aim or motivation of the investigator. In the U.S., funding agencies such as NIH and NSF distinguish between applied research and basic ( aka fundamental or pure) research in their RFPs, Request for Proposals:

Key Terms: Aims of Research; Types of Research

It is commonplace to sort research by its purpose or aim. The two dominant aims of research are Applied Research and Basic Research .

Applied Research

Applied research is the work that gets done to solve workplace, educational, personal, and social problems. Investigators tackle these types of projects to make the world a better place. Researchers use this method to analyze obstacles, solve problems and create commercial opportunities.

For instance, in Writing Studies, an applied research project could investigate whether training in style and grammar improves student writing.

Basic Research

Basic research is driven by curiosity about how some aspect of the world works.

This type of research is not conducted to solve specific problems for specific communities nor is it conducted to develop specific applications. Rather, the goal of basic research is to contribute to knowledge–i.e., what discourse communities/communities believe to be true.

Basic Research Often Informs Applied Research

People cannot foresee the future well enough to predict what’s going to develop from basic research. If we only did applied research, we would still be making better spears. George Smoot, qtd in Mullane, 2006, p. 5

Research practices are iterative. As researchers engage in composing and ongoing dialectic , thanks to the iterative nature of research, basic research may inform applied research and result unexpected commercial applications. For example, the following basic research led to applications–i.e., Applied Research.

• Discovery of x-rays which led to studying bone fractures
• Discovery of chlorpromazine, a drug used in the treatment of  schizophrenia
• Discovery of dark adaptation which helped establish a theory of basic visual processes that led to applications in treating night blindness and reading x-rays
• Psychological studies of decision making that led to important findings in the fields of education, medicine, and economics” ( Psych Central , Retrieved 3/15/20).

Examples of basic research in Writing Studies could include fundamental questions such as How does writing shape thinking? In terms of human development, when can students learn to adopt their messages for their audiences? What is the relationship between speech, thought and language?

Hale, Julie. (2018, July). Understanding Research Methodology 5: Applied and Basic Research. Psych Central. 

Mullane, L. (2006, September/October). Beyond basic: Applied research brings real-world solutions to real-world problems. Public Purpose, 2-5.

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Featured Articles

• What is Applied Research? + [Types, Examples & Method]

Every research begins with a clear delineation of the purpose of the investigation as this goes a long way to determine the research process or methodology adopted. In this sense, a researcher may choose to carry out basic research or applied research. 

Applied research is set on providing answers to specific questions in a bid to provide a solution to a defined problem. In this article, we will outline the features of this method of systematic investigation as well as how it differs from other approaches to research. 

What is Applied Research?

Applied research is a type of research design that seeks to solve a specific problem or provide innovative solutions to issues affecting an individual, group or society. It is often referred to as a scientific method of inquiry or contractual research because it involves the practical application of scientific methods to everyday problems. 

When conducting applied research, the researcher takes extra care to identify a problem, develop a research hypothesis and goes ahead to test these hypotheses via an experiment. In many cases, this research approach employs empirical methods in order to solve practical problems. 

Applied research is sometimes considered to be a non-systematic inquiry because  of its direct approach in  seeking a solution to a problem. It is typically a follow-up research design that further investigates the findings of pure or basic research in order to validate these findings and apply them to create innovative solutions.     

Types of Applied Research

There are 3 types of applied research. These are evaluation research, research and development, and action research.

• Evaluation Research

Evaluation research is a type of applied research that analyses existing information about a research subject to arrive at objective research outcomes or reach informed decisions. This type of applied research is mostly applied in business contexts, for example, an organisation may adopt evaluation research to determine how to cut down  overhead costs.

• Research and Development

Research and development is a type of applied research that is focused on developing new products and services based on the needs of target markets. It focuses on gathering information about marketing needs and finding ways to improve on an existing product or create new products that satisfy the identified needs.

• Action Research

Action research is a type of applied research that is set on providing practical solutions to specific business problems by pointing the business in the right directions. Typically, action research is a process of reflective inquiry that is limited to specific contexts and situational in nature.

Examples of Applied Research 

Applied research is relevant in different fields of study; especially science and social science-related fields. Examples of applied research can be seen in medicine, education, business, engineering, psychology and health, and these would be further explicated below. 

Applied Research Example in Business

Applied research is used in business to build knowledge and develop product solutions. It enables organisations to identify the peculiar needs of target markets and this would help them to create different business strategies that would allow them to satisfy these needs. 

In addition, conducting contractual research would help business owners to get insightful feedback on product gaps that may have, otherwise, been ignored. This is a great way to get first-hand information on target market reactions which can inform brand decisions. 

Applied research also helps employers of labour to identify and address the productivity needs of their workforce. For instance, an organization may carry out applied research in order to measure the effectiveness of its recruitment practices or of its organisational structure. 

• Applied research to improve an organization’s hiring process.
• Applied research to improve workplace efficiency and organizational policies.
• Applied research to bridge skill gaps in the workplace.

Applied Research Examples in Education  

In education, applied research is used to test pedagogic processes in order to discover the best teaching and learning methods. It is also used to test educational policies before implementation and to address different issues associated with teaching paradigms and classroom dynamics for a better learning experience. 

Educational applied research attempts solving a problem by gathering data from primary sources using a combination of qualitative and quantitative data collection methods. This data serves as empirical evidence which is then subjected to rigorous analysis and description in order to arrive at valid conclusions.

The goal of this research methodology is to determine the applicability of educational theory and principles by way of subjecting hypotheses to experimentation within specific settings. Applied research in education is also more utilitarian as it gathers practical evidence that can inform pragmatic solutions to problems. 

Characteristics of Applied Research in Education 

• It clearly highlights generalizations and hypotheses that inform the research findings.
• It relies on empirical evidence.
• It is set at providing solutions to a defined problem.
• It requires accurate observation and description.
• A study into the way to improve teacher-learner classroom engagements.
• A study into the way to improve a school’s readiness for its students.
• A study to build students’ interests in Mathematics.

Applied Research Example in Science

In itself, applied research is a scientific method of investigation because it applies existing scientific knowledge to practical situations. It is useful in different fields including thermodynamics, physics, material sciences and microbiology. 

Examples of applied research in science include the following: 

• Applied research to improve agricultural crop production
• Applied research to treat or cure a specific disease.

Applied Research Examples in Psychology  

There are different reasons psychologists would make use of applied research in the course of their work. In many cases, industrial-psychologists concerned with workplace behavior, human resources and organisational development combine psychological principles with applied research to proffer solutions. 

Examples of applied research in psychology include:

• Applied research to improve workplace commitment by arriving at practical worker-motivation strategies.
• Investigating treatment and management options for anxiety and panic attacks.
• Investigating factors that improve worker’s productivity.

Applied Research Example in Health   

In health and medical sciences, applied research serves as the background to evidence-based and solution-oriented medicine. It effectively merges scientific knowledge and methods with health experiences in order to arrive at accurate and verifiable results; using empirical research data or evidence. 

The adaptation of applied research to medicine is referred to as applied clinical research . Many health and medical practitioners use applied research to measure the extent to which the findings of basic or pure research can be adopted or modified into a solution-oriented approach.

Examples of applied research in health include:

• An investigation to identify the healing properties of a specific herb.
• An investigation to identify the side effects of using a particular drug.

APPLIED RESEARCH METHODS

Qualitative and quantitative data collection methods are used in applied research to gather empirical evidence that is further subjected to experimentation in order to arrive at valid research outcomes. The following are data collection methods in applied research:

An interview is a qualitative method of data collection that involves having a one-on-one interaction or discussion with the research subjects in order to gather relevant information that can serve as empirical data. It can be conducted with the use of an audio recorder, digital camera or camcorder.

Even though it is time-consuming and expensive, interviews allow the researcher to gather the most relevant data which gives him or her in-depth knowledge about the research subjects. An interview may be structured, semi-structured or unstructured; depending on the research purpose. 

• Surveys/Questionnaires

A questionnaire is an instrument that is typically used for quantitative data gathering . It outlines a series of questions relating to the research context and requires the research subjects to choose or provide responses that reflect their knowledge and experiences.

There are different types of questions that can be contained in a questionnaire including rating scale question s, close and open-ended questions and fixed alternatives. You can create and administer your applied research survey using data-collection platforms like Formplus . 

You can also start choosing from our over 200 online survey/questionnaire templates.

Here is a step-by-step guide on  how to create and administer questionnaires for applied research using Formplus

Sign in to Formplus

In the Formplus builder, you can easily create different questionnaires for applied research by dragging and dropping preferred fields into your form. To access the Formplus builder, you will need to create an account on Formplus. 

Once you do this, sign in to your account and click on “Create Form ” to begin.

Edit Form Title

Click on the field provided to input your form title, for example, “Applied Research Questionnaire”.

Click on the edit button to edit the form.

i. Add Fields: Drag and drop preferred form fields into your form in the Formplus builder inputs column. There are several field input options for questionnaires in the Formplus builder. 

ii. Edit fields

iii. Click on “Save”

iv. Preview form. 

Form Customization

With the form customization options in the form builder, you can easily improve on the appearance of your questionnaire and make it more unique and personalized. Formplus allows you to change your form theme, add background images and even change the font according to your needs. 

Multiple Sharing Options

Formplus also provides multiple form sharing options which enables you to easily share your questionnaire with respondents. With the direct social media sharing buttons, you can swiftly share your applied research questionnaire link to your organization’s social media pages. 

You can send out your questionnaire as email invitations to your research subjects too. Formplus also allows you to share your form’s QR code or embed it in your organization’s website for easy access. 

• Data Reporting

The process of gathering useful information about a research subject which can be used for further research. This can be done through not-for-profit reports, newspapers, website articles and hospital records.

It helps you  gather relevant data that results in more insightful decisions.  However, it is susceptible to bias because the information can easily be exaggerated by the individual or group collecting the data. 

• Observation

A type of data gathering method in applied research that requires the researcher to pay close attention to a subject (s) in order to gather useful information about it. Although bias may arise with this method, observation is widely considered as a universally accepted research practice.

Observation helps the researcher to gather empirical data and thus, it is the starting point for the formulation of a hypothesis. There are different techniques for observation including complete observer, complete participant, participant as observer and observer as participant. 

• Focus Groups

A focus group is a type of qualitative data collection process that allows the researcher to gather information about the disposition, feelings and opinions of the research subjects about a specific issue.

Here, the researcher engages a group comprising 6-10 individuals with a range of open-ended questions with the aim of gathering feedback about their emotional disposition to the issue at hand. This method is cost-effective compared to one-on-one interviews, and the information obtained is insightful and detailed. 

How is Applied Research Different from Basic Research?

Applied research and basic research are common methods of inquiry, based on purpose or utility. However, there are key differences between these 2 research approaches and these would be clearly outlined below: 

Applied research is a type of research that is aimed at the practical application of science in order to solve practical problems. On the other hand, basic research is a type of research that is aimed at expanding knowledge rather than solving problems. 

Basic research is theoretical in nature while applied research is practical and descriptive in nature. Basic research explores and generates theories that may be abstract while applied research tests these theories in order to solve a problem. 

Basic research is universal while applied research is limited. Basic research can focus on diverse or multiple contexts while applied research focuses on specific contexts with the aim of providing a solution to an identified problem. 

Applied research is focused on providing answers or solutions to a specific research question while basic research focuses on multiple concepts at the same time in its quest to expand knowledge. 

• Applied research pays attention to external validity while basic research is more focused on internal validity .

Characteristics of Applied Research 

• Applied research is solution-specific and it addresses practical problems. Unlike basic research that is aimed at theorizing and expanding knowledge, applied research focuses on addressing a particular problem using a range of science-based approaches.
• Applied research is descriptive in nature as it arrives at solutions by experimenting on empirical evidence and describing research outcomes.
• Usually, applied research tests theories arrived at by pure research in order to determine the usefulness of these theories in solving practical problems.
• It describes the relationship between research variables by measuring the characteristics of dependent and independent variables.
• Applied research relies on empirical evidence in order to arrive at valid research outcomes.
• It is not theoretical and it is not directly concerned with the expansion of knowledge.
• Applied research is synthetic in nature.
• It is aimed at the cost-effective reduction of social problems.
• Applied research is action-oriented.

Advantages of Applied Research

• Validity: Applied research is unbiased in nature because it tests empirical evidence in order to arrive at valid research outcomes. It employs carefully mapped-out procedures, and this makes it a more valid research approach.
• It is useful in solving specific problems. It helps individuals and organizations to find solutions to specific problems.

Disadvantages of Applied Research 

• It is not flexible in nature as it is restricted to a stipulated deadline.
• Applied research is limited in nature and it cannot be generalized. In other words, the findings from applied research cannot be generalized.

Conclusion 

Applied research is an important research approach because it helps organisations to arrive at practical solutions to specific problems while improving their productivity and output. Unlike basic research that focuses on generating theories that explain phenomena, applied research pays attention to describing empirical evidence with the aim of providing solutions. 

In carrying out applied research, the researcher combines a number of qualitative and quantitative data-gathering methods including questionnaires, observation methods, and interviews. This helps the researcher to gather empirical evidence that is then subjected to experimentation depending on the type of applied research and the overall focus. 

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• Key Differences

Know the Differences & Comparisons

Difference Between Basic and Applied Research

On the contrary, applied research implies the research that is put to practical use and is beneficial to solve practical problems. This article might help you in understanding the difference between basic and applied research.

Content: Basic Research Vs Applied Research

Comparison chart.

Definition of Basic Research

Basic Research or otherwise called as pure or fundamental research, is one that focuses on advancing scientific knowledge for the complete understanding of a topic or certain natural phenomenon, primarily in natural sciences. In a nutshell, when knowledge is acquired for the sake of knowledge it is called basic research.

Basic Research is completely theoretical, that focuses on basic principles and testing theories. It tends to understand the basic law.

Basic Research deals with generalization and formulation of theory about human behaviour. It is aligned towards collecting information that has universal applicability. Therefore, basic research helps in adding new knowledge to the already existing knowledge.

Definition of Applied Research

Applied Research can be defined as research that encompasses real life application of the natural science. It is directed towards providing a solution to the specific practical problems and develop innovative technology.

In finer terms, it is the research that can be applied to real-life situations. It studies a particular set of circumstances, so as to relate the results to its corresponding circumstances.

Applied research includes research that focuses on certain conclusions experiencing a business problem. Moreover, research that is aligned towards ascertaining social, economic or political trends are also termed as applied research.

Key Differences Between Basic and Applied Research

The points given below explain the differences between basic and applied research:

• Basic Research can be explained as research that tries to expand the already existing scientific knowledge base. On the contrary, applied research is used to mean the scientific study that is helpful in solving real-life problems.
• While basic research is purely theoretical, applied research has a practical approach.
• The applicability of basic research is greater than the applied research, in the sense that the former is universally applicable whereas the latter can be applied only to the specific problem, for which it was carried out.
• The primary concern of the basic research is to develop scientific knowledge and predictions. On the other hand, applied research stresses on the development of technology and technique with the help of basic science.
• The fundamental goal of the basic research is to add some knowledge to the already existing one. Conversely, applied research is directed towards finding a solution to the problem under consideration.

The type of research may vary on the basis of the level at which research is carried out and its purpose. One can choose basic research over applied research when the purpose is to add certain scientific knowledge, whereas when it is important to identify a proper solution to the problem under study, applied research is preferable.

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Understanding basic research

Last updated

8 February 2023

Reviewed by

Cathy Heath

Short on time? Get an AI generated summary of this article instead

Research is an essential activity for all of us. It's how we foster curiosity, gather information, learn about the world, and find solutions. There are many different types of research, but they all fall into one of two categories: basic and applied.

This article will look at basic research, what it is, how we use it, and how it compares to applied research.

Analyze your basic research

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• What is basic research?

Basic research is all about information-gathering and answering What, Why, and How research questions. It involves learning the facts about a subject, finding out why things happen, perhaps by investigation or observation, and then using this expanded knowledge to better understand the topic.

Basic research is also called fundamental, foundational, or pure research.

• Where is basic research used?
• What are examples of basic research?

Studying how a client moves through the sales funnel process

Examining the components of a cell

Analyzing performance before and after coffee consumption

Looking at how stress affects productivity

Determining which areas of a country are driest and wettest

Understanding how a doctor makes a mental health diagnosis

• What are basic research methods?

You can conduct basic research using several different methods. The best method will depend on what you are studying and what questions you are trying to answer.

Some methods available for basic research include:

Experimentation

Conducting a survey or interview

Observation

• What is the value of basic research?

Basic research teaches us about the world around us. It helps us gather more primary data about a subject, which we can use later in applied research. Without that basic information on a subject, we wouldn't have the data we need to make informed decisions.

That's why basic research is often called  foundational research . The information we acquire through basic research gives us a foundation of knowledge we can build on in the future.

• Is basic research qualitative or quantitative?

Basic research can be qualitative, quantitative, or both.

Quantitative data deals with  quantities  or numbers. You could chart this data on a graph, using measurements such as:

Other numerical data

Qualitative data deals with  qualities .  It focuses more on the language and sentiment found in:

Interview responses

Observations about human behavior

Verbal answers to surveys

You can get qualitative and quantitative data from basic research, depending on what you are researching and the methods you use.

• Basic research vs. applied research

Where basic research gathers information and data on a subject, applied research uses that data to look for answers to questions. Applied research takes the data obtained in basic research and applies it to answer a question and provide a possible solution.

There are three types of applied research:

Evaluation research: determining how well something is working or what it’s worth

Action research: understanding how to improve a process, for example in education or business

Research and development: looking at new products and services that businesses can offer consumers to solve a problem

Applied research often hinges on data collected during basic research. For example, you might gather data on how customers move through the sales funnel. The information you learn about the customer journey comes from your basic research, which you might gather through website analytics and customer interviews.

Now you want to know the best method for bringing more people into the sales funnel. You could use applied research to determine if it's better to increase your digital ad spending, send more emails, or use telemarketing to capture more sales leads.

Where is applied research used?

As applied research is solution-based, agencies concerned with medical research, psychology, and education all use it to improve lives. For businesses, applied research is the foundation of research and development (R&D) departments that are looking to create new consumer products and services.

You can also use applied research in your everyday life. You might use basic research to gather data on how caffeine affects your sleeping patterns, then use applied research techniques to determine how to get a better night's sleep.

Examples of applied research

Examples of applied research include:

Identifying new products to help aging seniors stay safe at home

Looking at ways to treat a medical condition safely

Determining how to make products last longer 

Examining the best ways to prevent Type 2 diabetes

Understanding how to engage teens in math classes

How to market a product to Gen Z

Understanding how businesses could help reduce their impact on climate change

What is the value of applied research?

Applied research's value lies in its ability to help us solve problems with data-backed solutions. However, without comprehensive basic research at the outset, we wouldn't have the information we need to find those solutions. This illustrates why basic research and applied research often work hand in hand, supporting research efforts and validating better outcomes.

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What is Basic Research?

Introduction

What is the meaning of basic research, examples of basic research, how do i perform basic research.

Basic science research is an essential pillar of scientific knowledge, because it extends understanding, provides new insights, and contributes to the advancement of science and fundamental knowledge across disciplines. In contrast, applied research aims for the discovery of practical solutions, which can involve using a technology or innovation that stems from existing knowledge. Basic science research potentially allows for generating ideas on which applied science can build novel inquiry and useful applications.

The process for conducting basic research is essentially the same as in an applied research orientation, but a better understanding of the distinction may prove increasingly important when crafting your research inquiry. In this article, we'll detail the characteristics and importance of basic research.

One of the key distinctions in science is the divide between basic and applied research . Applied research is directly associated with practical applications such as:

• career development
• program evaluation
• policy reform
• community action

In inquiries regarding each of these applications, researchers identify a specific problem to be solved and design a study intentionally aimed at developing solutions to that problem. Basic research is less concerned about specific problems and more focused on the nature of understanding.

Characteristics of basic research

Research that advances understanding of knowledge has distinguishing characteristics and important considerations.

• Focus on theoretical development . Rather than focus on practical applications, scholars in basic science research are more interested in ordering data and understanding in a scientific manner. This means expanding the consensus understanding of theory and the proposal of new theoretical frameworks that ultimately further research.
• Exploratory research questions . Basic research tends to look at areas where there is insufficient theoretical coherence to empirically understand phenomena. In other words, basic research often employs research questions that seek greater definition of knowledge.
• Funding for basic science . The nature of the support available for research depends on whether the science is basic or applied . Government agencies, national institutes, and private organizations all have different objectives, making some more appropriate for basic research than others.
• Writing for research dissemination . Academic journals exist on a continuum between theoretical and practical orientations. Journals that are more interested in theoretical and methodological discussions are more appropriate for basic research than are journals that look for more practical implications arising from research.

The brief survey of these characteristics should guide researchers about how they should approach research design in terms of feasibility, methods, and execution. This discussion shouldn't preclude you from pursuing basic research if it is more appropriate to your research inquiry. Instead, it should inform you of the opportunities, advantages, and challenges of basic research.

Importance of basic research

Basic research may seem aimless and unfocused if it doesn't yield any direct practical implications. However, its contribution to scholarly discussion cannot be overstated as it guides the development of theories and facilitates critical discussion about what applied studies to pursue next.

Basic science has guided fields such as microbiology, engineering, and chemistry. Scientists ultimately use its findings to develop new methods in treating disease and innovating on new technology.

Its contribution to the social sciences through observation and longitudinal study is also immeasurable. While basic research is often a precursor to more applied science, the theories it generates spur further study that ultimately leads to professional development programs and policy reform in social institutions.

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Different fields rely on both applied and basic science for generating new knowledge. While applied research looks to yield direct benefits through real-world applications, basic research provides the necessary theoretical foundation for practical research in various fields.

Basic research example in education

Basic research in schooling contexts focuses on understanding the nature of teaching and learning or the processes within educational environments before any focused investigation can be designed, let alone conducted. Basic research is necessary in this case because of the various situated differences across learners who come from different cultures and backgrounds.

Basic research in education looks at various inquiries such as how teachers and students interact with each other and how alternative assessments can create positive learning outcomes. Ultimately, this may lead to applied research that can facilitate the creation of teacher education and professional development programs.

Basic research example in psychology

Psychology is a field that is under constant development. Basic research is essential to developing theories related to human behavior and mental processes. The subfield of cognition is a significant benefactor of basic research as it relies on novel theoretical frameworks relating to memory and learning.

Basic research example in health

A great deal of health research that reaches public consciousness is undoubtedly applied research. The development of vaccines and other medicine to combat the COVID-19 pandemic was one such line of inquiry that addressed a practical need.

That said, scientists will undoubtedly credit basic research as a precursor to medical breakthroughs in applied science research. The knowledge gained through basic research laid the foundation for genomic sequencing of the COVID-19 virus, while experiments on living systems created knowledge about how to safely vaccinate the human body.

The National Institute of Health sponsors such basic research and research in other areas such as human DNA, while the National Science Foundation funds basic research on topics such as gender stereotypes and stress levels.

At its core, all scientific inquiry seeks to identify causal factors, relationships, and distinguishing characteristics among concepts and phenomena. As a result, the process is essentially the same for basic or applied science. Nonetheless, it is worth reviewing the process.

• Research design . Identify gaps in existing research that novel inquiry can address. A rigorous literature review can help identify theoretical or methodological gaps that a new study with an exploratory research question can address.
• Data collection . Exploratory research questions tend to prioritize data collection methods such as interviews , focus groups , and observations . Basic research, as a result, casts a wide net for any and all potential data that can facilitate generation of theoretical developments.
• Data analysis . At this stage, the goal is to organize and view your data in such a way that facilitates the identification of key insights. Analysis in basic research serves the dual purpose of filtering data through existing theoretical frameworks and generating new theory.
• Research dissemination . Once you determine your findings, you will want to present your insights in an empirical and rigorous manner. Visualizing data in your papers and presentations is useful for pointing out the most relevant data and analysis in your study.

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Basic Research in Psychology

Basic research—also known as fundamental or pure research—refers to study and research meant to increase our scientific knowledge base. This type of research is often purely theoretical, with the intent of increasing our understanding of certain phenomena or behavior. In contrast with applied research, basic research doesn't seek to solve or treat these problems.

Basic Research Examples

Basic research in psychology might explore:

• Whether stress levels influence how often students engage in academic cheating
• How caffeine consumption affects the brain
• Whether men or women are more likely to be diagnosed with depression
• How attachment styles among children of divorced parents compare to those raised by married parents

In all of these examples, the goal is merely to increase knowledge on a topic, not to come up with a practical solution to a problem.

The Link Between Basic and Applied Research

As Stanovich (2007) noted, many practical solutions to real-world problems have emerged directly from basic research. For this reason, the distinction between basic research and applied research is often simply a matter of time. As social psychologist Kurt Lewin once observed, "There is nothing so practical as a good theory."

For example, researchers might conduct basic research on how stress levels impact students academically, emotionally, and socially. The results of these theoretical explorations might lead to further studies designed to solve specific problems. Researchers might initially observe that students with high stress levels are more prone to dropping out of college before graduating. These first studies are examples of basic research designed to learn more about the topic.

As a result, scientists might then design research to determine what interventions might best lower these stress levels. Such studies would be examples of applied research. The purpose of applied research is specifically focused on solving a real problem that exists in the world. Thanks to the foundations established by basic research, psychologists can then design interventions that will help students effectively manage their stress levels , with the hopes of improving college retention rates.

Why Basic Research Is Important

The possible applications of basic research might not be obvious right away. During the earliest phases of basic research, scientists might not even be able to see how the information gleaned from theoretical research might ever apply to real-world problems. However, this foundational knowledge is essential. By learning as much as possible about a topic, researchers are able to gather what they need to know about an issue to fully understand the impact it may have.

"For example, early neuroscientists conducted basic research studies to understand how neurons function. The applications of this knowledge were not clear until much later when neuroscientists better understood how this neural functioning affected behavior," explained author Dawn M. McBride in her text The Process of Research in Psychology . "The understanding of the basic knowledge of neural functioning became useful in helping individuals with disorders long after this research had been completed."

Basic Research Methods

Basic research relies on many types of investigatory tools. These include observation, case studies, experiments, focus groups, surveys, interviews—anything that increases the scope of knowledge on the topic at hand.

Frequently Asked Questions

Psychologists interested in social behavior often undertake basic research. Social/community psychologists engaging in basic research are not trying to solve particular problems; rather, they want to learn more about why humans act the way they do.

Basic research is an effort to expand the scope of knowledge on a topic. Applied research uses such knowledge to solve specific problems.

An effective basic research problem statement outlines the importance of the topic; the study's significance and methods; what the research is investigating; how the results will be reported; and what the research will probably require.

Basic research might investigate, for example, the relationship between academic stress levels and cheating; how caffeine affects the brain; depression incidence in men vs. women; or attachment styles among children of divorced and married parents.

By learning as much as possible about a topic, researchers can come to fully understand the impact it may have. This knowledge can then become the basis of applied research to solve a particular problem within the topic area.

Stanovich KE.  How to Think Straight About Psychology . 8th edition. Boston, MA: Pearson Allyn and Bacon; 2007.

McCain KW. “Nothing as practical as a good theory” Does Lewin's Maxim still have salience in the applied social sciences? Proceedings of the Association for Information Science and Technology . 2015;52(1):1-4. doi:10.1002/pra2.2015.145052010077

McBride DM. The Process of Research in Psychology . 3rd edition . Thousand Oaks, CA: Sage Publications; 2015.

Committee on Department of Defense Basic Research. APPENDIX D: Definitions of basic, applied, and fundamental research . In: Assessment of Department of Defense Basic Research. Washington, D.C.: The National Academic Press; 2005.

By Kendra Cherry, MSEd Kendra Cherry, MS, is a psychosocial rehabilitation specialist, psychology educator, and author of the "Everything Psychology Book."

25 Basic Research Examples

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Dr. Chris Drew is the founder of the Helpful Professor. He holds a PhD in education and has published over 20 articles in scholarly journals. He is the former editor of the Journal of Learning Development in Higher Education. [Image Descriptor: Photo of Chris]

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Basic research is research that focuses on expanding human knowledge, without obvious practical applications.

For a scholarly definition, we can turn to Grimsgaard (2023):

“Basic research, also called pure, theoretical or fundamental research, tends to focus more on ‘big picture’ topics, such as increasing the scientific knowledge base around a particular topic.”

It is contrasted with applied research , which “seeks to solve real world problems” (Lehmann, 2023).

Generally, basis research has no clear economic or market value, meaning it tends to take place in universities rather than private organizations. Nevertheless, this blue-skies basic research can lead to enormous technological breakthroughs that forms the foundation for future applied research .

Basic Research Examples

• Physics: Understanding the properties of neutrinos.
• Medicine: Investigating the role of gut microbiota in mental health.
• Anthropology: Studying the social structures of ancient civilizations.
• Biology: Exploring the mechanism of CRISPR-Cas9 gene editing.
• Psychology: Understanding the cognitive development in infants.
• Chemistry: Researching new catalytic processes for organic synthesis.
• Astronomy: Investigating the life cycle of stars.
• Sociology: Exploring the impacts of social media on society.
• Ecology: Studying the biodiversity in rainforests.
• Computer Science: Developing new algorithms for machine learning.
• Mathematics: Exploring new approaches to number theory.
• Economics: Investigating the causes and effects of inflation.
• Linguistics: Researching the evolution of languages over time.
• Political Science: Studying the effects of political campaigns on voter behavior.
• Geology: Investigating the formation of mountain ranges.
• Architecture: Studying ancient building techniques and materials.
• Education: Researching the impact of remote learning on academic performance.
• History: Investigating trade routes in the medieval period.
• Literature: Analyzing symbolism in 19th-century novels.
• Philosophy: Exploring concepts of justice in different cultures.
• Environmental Science: Studying the impact of plastics on marine life.
• Genetics: Investigating the role of specific genes in aging.
• Engineering: Researching materials for improving battery technology.
• Art History: Investigating the influence of politics on Renaissance art.
• Agricultural Science: Studying the impact of pest management practices on crop yield.

Case Studies

1. understanding the structure of the atom.

The study of atomic structure began in the early 1800s, with John Dalton’s atomic theory suggesting that atoms were indivisible and indestructible. However, it was not until the 20th century that Ernest Rutherford’s gold foil experiment led to the discovery of the nucleus and the proposal of the planetary model of the atom, which was further refined by Niels Bohr and eventually led to the quantum mechanical model, showing that electrons move in orbital shells around the nucleus.

Research Context:

• Topic: Investigating the structure and behavior of atoms.
• Purpose: Understand the fundamental particles (protons, neutrons, and electrons) and forces that govern atomic behavior.
• Methodology: Utilize particle accelerators, theoretical models, and experimental physics.
• Significance: Fundamental understanding of atomic structures has paved the way for numerous technological and scientific breakthroughs, such as the development of nuclear energy and advancements in chemistry and materials science.

Outcomes and Further Developments:

• Discovery and exploration of subatomic particles like quarks.
• Development of quantum mechanics and quantum field theory.
• Subsequent advancements in various scientific fields, such as nuclear physics, chemistry, and nanotechnology.

2. Researching the Human Genome

The Human Genome Project, an international research effort that began in 1990, aimed to sequence and map all of the genes – collectively known as the genome – of humans. Completed in 2003, it represented a monumental achievement in science, providing researchers with powerful tools to understand the genetic factors in human disease, paving the way for new strategies for diagnosis, treatment, and prevention.

• Topic: Investigating the structure, function, and mapping of the human genome.
• Purpose: Understand the genetic makeup of humans, identify genes, and learn how they work.
• Methodology: Techniques like DNA sequencing, genetic mapping, and computational biology.
• Significance: Foundational for various advancements in genetics, medicine, and biology, providing insights into diseases, development, and evolution.
• Completion of the Human Genome Project, which mapped the entire human genome.
• Advancements in personalized medicine, genetic testing, and gene therapy.
• Development of CRISPR technology, enabling precise genetic editing.

Basic Research vs Applied Research

Basic research focuses on expanding knowledge and understanding fundamental concepts without immediate practical application, while applied research focuses on solving specific, practical problems using the knowledge gained from basic research (Akcigit, Hanley & Serrano-Velarde, 2021).

A simple comparison of definitions is below:

• Basic research seeks to gain greater knowledge or understanding of the fundamental aspects of phenomena.
• Applied research seeks to solve practical problems the researcher or their stakeholders are facing.

A researcher might choose basic research over applied if their primary motivation is to expand the boundaries of human knowledge and contribute to academic theories, whilst they might favor applied research if they are more interested in achieving immediate solutions, innovations, or enhancements impacting real-world scenarios (Akcigit, Hanley & Serrano-Velarde, 2021; Baetu, 2016).

To learn more about applied research, check out my article on applied research.

Basic Research: Disappearing in 21st Century Universities?

In the 1980s, universities increasingly came under pressure to prove their specific financial value to society. This has only intensified over the decades. So, whereas once universities were preoccupied with basic research, there’s been a big push toward academic-industry collaborations where research demonstrates its economic value, rather than its cultural or intellectual value, to society. This may, on the one hand, help make universities relevant to today’s world. But on the other hand, it may interfere with the blue skies research that could identify and solve the bigger, less financially pressing, questions and problems of our ages (Bentley, Gulbrandsen & Kyvik, 2015).

Pros and Cons of Basic Research

The primary advantage of basic research is that it generates knowledge and understanding of fundamental principles that can later serve as a foundation for technological advancement or social betterment.

It can lead to groundbreaking discoveries, stimulate creativity, and drive scientific innovation by satisfying human curiosity (Akcigit, Hanley & Serrano-Velarde, 2021; Baetu, 2016).

It is also often the catalyst for training the next generation of scientists and researchers.

However, basic research can be time-consuming, expensive, and its outcomes may not always be directly observable or immediately beneficial.

This is why it’s often left to government-funded research institutes and universities to conduct this sort of research. As Binswanger (2014) argues, “basic research constitutes, for the most part, a common good which cannot be sold profitably on markets.

Furthermore, its value is often underestimated because the applications are not immediately apparent or tangible.

Below is a summary of some advantages and disadvantages of basic research:

Abeysekera, A. (2019). Basic research and applied research.  Journal of the National Science Foundation of Sri Lanka ,  47 (3).

Akcigit, U., Hanley, D., & Serrano-Velarde, N. (2021). Back to basics: Basic research spillovers, innovation policy, and growth.  The Review of Economic Studies ,  88 (1), 1-43.

Baetu, T. M. (2016). The ‘big picture’: the problem of extrapolation in basic research. The British Journal for the Philosophy of Science.

Bentley, P. J., Gulbrandsen, M., & Kyvik, S. (2015). The relationship between basic and applied research in universities.  Higher Education ,  70 , 689-709. ( Source )

Binswanger, M. (2014). How nonsense became excellence: forcing professors to publish. In Welpe, I. M., Wollersheim, J., Osterloh, M., & Ringelhan, S. (Eds.), Incentives and Performance: Governance of Research Organizations . Springer International Publishing.

Grimsgaard, W. (2023). Design and strategy: a step by step guide . New York: Taylor & Francis.

Lehmann, W. (2023). Social Media Theory and Communications Practice . London: Taylor & Francis.

Wiid, J., & Diggines, C. (2009). Marketing Research . Juta.

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Home » Basic Research – Types, Methods and Examples

Basic Research – Types, Methods and Examples

Table of Contents

Basic Research

Definition:

Basic Research, also known as Fundamental or Pure Research , is scientific research that aims to increase knowledge and understanding about the natural world without necessarily having any practical or immediate applications. It is driven by curiosity and the desire to explore new frontiers of knowledge rather than by the need to solve a specific problem or to develop a new product.

Types of Basic Research

Types of Basic Research are as follows:

Experimental Research

This type of research involves manipulating one or more variables to observe their effect on a particular phenomenon. It aims to test hypotheses and establish cause-and-effect relationships.

Observational Research

This type of research involves observing and documenting natural phenomena without manipulating any variables. It aims to describe and understand the behavior of the observed system.

Theoretical Research

This type of research involves developing and testing theories and models to explain natural phenomena. It aims to provide a framework for understanding and predicting observations and experiments.

Descriptive Research

This type of research involves describing and cataloging natural phenomena without attempting to explain or understand them. It aims to provide a comprehensive and accurate picture of the observed system.

Comparative Research

This type of research involves comparing different systems or phenomena to identify similarities and differences. It aims to understand the underlying principles that govern different natural phenomena.

Historical Research

This type of research involves studying past events, developments, and discoveries to understand how science has evolved over time. It aims to provide insights into the factors that have influenced scientific progress and the role of basic research in shaping our understanding of the world.

Data Collection Methods

Some common data collection methods used in basic research include:

• Observation : This involves watching and recording natural phenomena in a systematic and structured way. Observations can be made in a laboratory setting or in the field and can be qualitative or quantitative.
• Surveys and questionnaires: These are tools for collecting data from a large number of individuals about their attitudes, beliefs, behaviors, and experiences. Surveys and questionnaires can be administered in person, by mail, or online.
• Interviews : Interviews involve asking questions to a person or a group of people to gather information about their experiences, opinions, and perspectives. Interviews can be structured, semi-structured, or unstructured.
• Experiments : Experiments involve manipulating one or more variables and observing their effect on a particular phenomenon. Experiments can be conducted in a laboratory or in the field and can be controlled or naturalistic.
• Case studies : Case studies involve in-depth analysis of a particular individual, group, or phenomenon. Case studies can provide rich and detailed information about complex phenomena.
• Archival research : Archival research involves analyzing existing data, documents, and records to answer research questions. Archival research can be used to study historical events, trends, and developments.
• Simulation : Simulation involves creating a computer model of a particular phenomenon to study its behavior and predict its future outcomes. Simulation can be used to study complex systems that are difficult to study in the real world.

Data Analysis Methods

Some common data analysis methods used in basic research include:

• Descriptive statistics: This involves summarizing and describing data using measures such as mean, median, mode, and standard deviation. Descriptive statistics provide a simple and easy way to understand the basic properties of the data.
• Inferential statistics : This involves making inferences about a population based on data collected from a sample. Inferential statistics can be used to test hypotheses, estimate parameters, and quantify uncertainty.
• Qualitative analysis : This involves analyzing data that are not numerical in nature, such as text, images, or audio recordings. Qualitative analysis can involve coding, categorizing, and interpreting data to identify themes, patterns, and relationships.
• Content analysis: This involves analyzing the content of text, images, or audio recordings to identify specific words, phrases, or themes. Content analysis can be used to study communication, media, and discourse.
• Multivariate analysis: This involves analyzing data that have multiple variables or factors. Multivariate analysis can be used to identify patterns and relationships among variables, cluster similar observations, and reduce the dimensionality of the data.
• Network analysis: This involves analyzing the structure and dynamics of networks, such as social networks, communication networks, or ecological networks. Network analysis can be used to study the relationships and interactions among individuals, groups, or entities.
• Machine learning : This involves using algorithms and models to analyze and make predictions based on data. Machine learning can be used to identify patterns, classify observations, and make predictions based on complex data sets.

Basic Research Methodology

Basic research methodology refers to the approach, techniques, and procedures used to conduct basic research. The following are some common steps involved in basic research methodology:

• Formulating research questions or hypotheses : This involves identifying the research problem and formulating specific questions or hypotheses that can guide the research.
• Reviewing the literature: This involves reviewing and synthesizing existing research on the topic of interest to identify gaps, controversies, and areas for further investigation.
• Designing the study: This involves designing a study that is appropriate for the research question or hypothesis. The study design can involve experiments, observations, surveys, case studies, or other methods.
• Collecting data: This involves collecting data using appropriate methods and instruments, such as observation, surveys, experiments, or interviews.
• Analyzing data: This involves analyzing the collected data using appropriate methods, such as descriptive or inferential statistics, qualitative analysis, or content analysis.
• Interpreting results : This involves interpreting the results of the data analysis in light of the research question or hypothesis and the existing literature.
• Drawing conclusions: This involves drawing conclusions based on the interpretation of the results and assessing their implications for the research question or hypothesis.
• Communicating findings : This involves communicating the research findings in the form of research reports, journal articles, conference presentations, or other forms of dissemination.

Applications of Basic Research

Some applications of basic research include:

• Medical breakthroughs : Basic research in fields such as biology, chemistry, and physics has led to important medical breakthroughs, including the discovery of antibiotics, vaccines, and new drugs.
• Technology advancements: Basic research in fields such as computer science, physics, and engineering has led to advancements in technology, such as the development of the internet, smartphones, and other electronic devices.
• Environmental solutions: Basic research in fields such as ecology, geology, and meteorology has led to the development of solutions to environmental problems, such as climate change, air pollution, and water contamination.
• Economic growth: Basic research can stimulate economic growth by creating new industries and markets based on scientific discoveries and technological advancements.
• National security: Basic research in fields such as physics, chemistry, and biology has led to the development of new technologies for national security, including encryption, radar, and stealth technology.

Examples of Basic Research

Here are some examples of basic research:

• Astronomy : Astronomers conduct basic research to understand the fundamental principles that govern the universe, such as the laws of gravity, the behavior of stars and galaxies, and the origins of the universe.
• Genetics : Geneticists conduct basic research to understand the genetic basis of various traits, diseases, and disorders. This research can lead to the development of new treatments and therapies for genetic diseases.
• Physics : Physicists conduct basic research to understand the fundamental principles of matter and energy, such as quantum mechanics, particle physics, and cosmology. This research can lead to new technologies and advancements in fields such as medicine and engineering.
• Neuroscience: Neuroscientists conduct basic research to understand the structure and function of the brain, including how it processes information and controls behavior. This research can lead to new treatments and therapies for neurological disorders and brain injuries.
• Mathematics : Mathematicians conduct basic research to develop and explore new mathematical theories, such as number theory, topology, and geometry. This research can lead to new applications in fields such as computer science, physics, and engineering.
• Chemistry : Chemists conduct basic research to understand the fundamental properties of matter and how it interacts with other substances. This research can lead to the development of new materials, drugs, and technologies.

Purpose of Basic Research

The purpose of basic research, also known as fundamental or pure research, is to expand knowledge in a particular field or discipline without any specific practical application in mind. The primary goal of basic research is to advance our understanding of the natural world and to uncover fundamental principles and relationships that underlie complex phenomena.

Basic research is often exploratory in nature, with researchers seeking to answer fundamental questions about how the world works. The research may involve conducting experiments, collecting and analyzing data, or developing new theories and hypotheses. Basic research often requires a high degree of creativity, innovation, and intellectual curiosity, as well as a willingness to take risks and pursue unconventional lines of inquiry.

Although basic research is not conducted with a specific practical outcome in mind, it can lead to significant practical applications in various fields. Many of the major scientific discoveries and technological advancements of the past century have been rooted in basic research, from the discovery of antibiotics to the development of the internet.

In summary, the purpose of basic research is to expand knowledge and understanding in a particular field or discipline, with the goal of uncovering fundamental principles and relationships that can help us better understand the natural world. While the practical applications of basic research may not always be immediately apparent, it has led to significant scientific and technological advancements that have benefited society in numerous ways.

When to use Basic Research

Basic research is generally conducted when scientists and researchers are seeking to expand knowledge and understanding in a particular field or discipline. It is particularly useful when there are gaps in our understanding of fundamental principles and relationships that underlie complex phenomena. Here are some situations where basic research might be particularly useful:

• Exploring new fields: Basic research can be particularly valuable when researchers are exploring new fields or areas of inquiry where little is known. By conducting basic research, scientists can establish a foundation of knowledge that can be built upon in future studies.
• Testing new theories: Basic research can be useful when researchers are testing new theories or hypotheses that have not been tested before. This can help scientists to gain a better understanding of how the world works and to identify areas where further research is needed.
• Developing new technologies : Basic research can be important for developing new technologies and innovations. By conducting basic research, scientists can uncover new materials, properties, and relationships that can be used to develop new products or technologies.
• Investigating complex phenomena : Basic research can be particularly valuable when investigating complex phenomena that are not yet well understood. By conducting basic research, scientists can gain a better understanding of the underlying principles and relationships that govern complex systems.
• Advancing scientific knowledge: Basic research is important for advancing scientific knowledge in general. By conducting basic research, scientists can uncover new principles and relationships that can be applied across multiple fields of study.

Characteristics of Basic Research

Here are some of the main characteristics of basic research:

• Focus on fundamental knowledge : Basic research is focused on expanding our understanding of the natural world and uncovering fundamental principles and relationships that underlie complex phenomena. The primary goal of basic research is to advance knowledge without any specific practical application in mind.
• Exploratory in nature: Basic research is often exploratory in nature, with researchers seeking to answer fundamental questions about how the world works. The research may involve conducting experiments, collecting and analyzing data, or developing new theories and hypotheses.
• Long-term focus: Basic research is often focused on long-term outcomes rather than immediate practical applications. The insights and discoveries generated by basic research may take years or even decades to translate into practical applications.
• High degree of creativity and innovation : Basic research often requires a high degree of creativity, innovation, and intellectual curiosity. Researchers must be willing to take risks and pursue unconventional lines of inquiry.
• Emphasis on scientific rigor: Basic research is conducted using the scientific method, which emphasizes the importance of rigorous experimental design, data collection and analysis, and peer review.
• Interdisciplinary: Basic research is often interdisciplinary, drawing on multiple fields of study to address complex research questions. Basic research can be conducted in fields ranging from physics and chemistry to biology and psychology.
• Open-ended : Basic research is open-ended, meaning that it does not have a specific end goal in mind. Researchers may follow unexpected paths or uncover new lines of inquiry that they had not anticipated.

Advantages of Basic Research

Here are some of the main advantages of basic research:

• Advancing scientific knowledge: Basic research is essential for expanding our understanding of the natural world and uncovering fundamental principles and relationships that underlie complex phenomena. This knowledge can be applied across multiple fields of study and can lead to significant scientific and technological advancements.
• Fostering innovation: Basic research often requires a high degree of creativity, innovation, and intellectual curiosity. By encouraging scientists to pursue unconventional lines of inquiry and take risks, basic research can lead to breakthrough discoveries and innovations.
• Stimulating economic growth : Basic research can lead to the development of new technologies and products that can stimulate economic growth and create new industries. Many of the major scientific and technological advancements of the past century have been rooted in basic research.
• Improving health and well-being: Basic research can lead to the development of new drugs, therapies, and medical treatments that can improve health and well-being. For example, many of the major advances in medical science, such as the development of antibiotics and vaccines, were rooted in basic research.
• Training the next generation of scientists : Basic research is essential for training the next generation of scientists and researchers. By providing opportunities for young scientists to engage in research and gain hands-on experience, basic research helps to develop the skills and expertise needed to advance scientific knowledge in the future.
• Encouraging interdisciplinary collaboration : Basic research often requires collaboration between scientists from different fields of study. By fostering interdisciplinary collaboration, basic research can lead to new insights and discoveries that would not be possible through single-discipline research alone.

Limitations of Basic Research

Here are some of the main limitations of basic research:

• Lack of immediate practical applications : Basic research is often focused on long-term outcomes rather than immediate practical applications. The insights and discoveries generated by basic research may take years or even decades to translate into practical applications.
• High cost and time requirements: Basic research can be expensive and time-consuming, as it often requires sophisticated equipment, specialized facilities, and large research teams. Funding for basic research can be limited, making it difficult to sustain long-term projects.
• Ethical concerns : Basic research may involve working with animal models or human subjects, raising ethical concerns around the use of animals or the safety and well-being of human participants.
• Uncertainty around outcomes: Basic research is often open-ended, meaning that it does not have a specific end goal in mind. This uncertainty can make it difficult to justify funding for basic research, as it is difficult to predict what outcomes the research will produce.
• Difficulty in communicating results : Basic research can produce complex and technical findings that may be difficult to communicate to the general public or policymakers. This can make it challenging to generate public support for basic research or to translate basic research findings into policy or practical applications.

About the author

Muhammad Hassan

Researcher, Academic Writer, Web developer

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Basic Research: What it is with examples

In building knowledge, there are many stages and methodologies to generate insights that contribute to its understanding and advancement; basic research and applied research are usually the most effective on this path.

Understanding research allows us to understand all the properties of a specific science or phenomenon at a fundamental level. Some examples are branches such as sociology, humanities, and other scientific fields; below, we will tell you everything you need to know about this type of research and its possible applications.

What is Basic Research?

Basic Research is a type of research used in the scientific field to understand and extend our knowledge about a specific phenomenon or field. It is also accepted as pure investigation or fundamental research .

This type of research contributes to the intellectual body of knowledge. Basic research is concerned with the generalization of a theory in a branch of knowledge; its purpose is usually to generate data that confirm or refute the initial thesis of the study.

It can also be called foundational research; many things get built on this foundation, and more practical applications are made.

Basic Research vs. Applied Research

Basic Research finds its counterpart and complement in applied research. They are two handy research methods when generating and giving a utility to the generated data. There are very marked differences, and understanding them will allow you to understand the path followed to create new knowledge.

The most important difference between basic research and applied research lies in the objective of each. It seeks to expand the information and understanding of the object of study, while applied research aims to provide a solution to the problem studied.

The relationship between these two types of research is usually very close since the methodologies used are often quite similar; the significant change is found in the initial and final point of the investigation.

Basic Research Examples

There can be many examples of basic research; here are some of them:

• A study of how stress affects labor productivity.
• Studying the best factors of pricing strategies.
• Understand the client’s level of satisfaction before certain interactions with the company providing solutions.
• The understanding of the leadership style of a particular company.

Advantages & Disadvantages

Basic research is critical for expanding the pool of knowledge in any discipline. The introductory course usually does not have a strict period, and the researcher’s concern commonly guides them. The conclusion of the fundamental course is generally applicable in a wide range of cases and plots.

At the same time, the basic study has disadvantages as well. The findings of this type of study have limited or no constructive conclusions. In another sense, fundamental studies do not resolve complex and definite business problems, but it does help you understand them better.

Taking actions and decisions based on the results of this type of research will increase the impact these insights may have on the problem studied if that is the purpose.

LEARN ABOUT: Theoretical Research

How to do basic research?

This process follows the same steps as a standard research methodology. The most crucial point is to define a thesis or theory that involves a perfectly defined case study; this can be a phenomenon or a research problem observed in a particular place.

There are many types of research, such as longitudinal studies , observational research , and exploratory studies. So the first thing you should do is determine if you can obtain the desired result with research or if it is better to opt for another type of research.

Once you have determined your research methodology, the data collection process begins, also depending on your type of study; sometimes, you can collect the data passively through observation or experimentation. On other occasions, intervene directly and collect quantitative information with tools such as surveys.

Platforms like QuestionPro will help you have a wide range of functions and tools to carry out your research; its survey software has helped students and professionals obtain all the information necessary to generate high-value insights.

In addition, it has a data analysis suite with which you can analyze all this information using all kinds of reports for a more straightforward interpretation of the final results.

QuestionPro is much more than survey software ; we have a solution for each specific problem and industry. We also offer data management platforms such as our research data repository called Insights Hub.

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