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Fundamentals of research methodology and data collection



The book is essential for student, scholars, Researchers, teachers and professionals in all fields of study where research is required for academic excellence. At the fundamental level, the basic knowledge and technique of carrying out research is very essential. The book Fundamentals of Research methodology and Data collection aims at providing necessary steps and guidelines to researchers and postgraduates who are more often faced with the challenges of how to start and what to do at a given stage. It serves as a textbook for both researchers at various levels of academic endeavors as well as a guide for supervisors supervising researcher at various levels
Fundamental of Research Methodology and Data Collection is an excellent book that has a
collection of basic concepts and terminologies in research method. It is filled with good ideas
and tips on how to write very good articles that are fit for publication in reputable journals. The
author has tried to identify problems encountered by young researchers and also proffered
solutions to those problems. She has given detailed tips on how to asses and determine a good
article meant for publication in quality journals. This will no doubt equip young researchers with
technical knowhow that will engender faster growth in academics. Referencing which is a vital
part of any research work was fully covered with various styles carefully and painstakingly
discussed. Basic concepts on inference which is very vital in most research endeavours were also
captured for non-specialists. Detailed write-up on sampling techniques and sample size
determination were well written and demonstrated in an excellent manner. The rudiments about
data collection including various methods with the merits and demerits were fully covered in this
book. This book is not only recommended to anybody engaged in writing Reports, Projects,
Dissertations, Thesis and articles for publication in academic journals. It is also recommended to
staff and students of all tertiary institutions especially those that want to learn how to become
their best in research.
Professor Fidelis Ifeanyi Ugwuowo, FRSS, MNSA.
Associate Dean, Faculty of Physical Sciences
University of Nigeria, Nsukka.
Forward i
Table of content ii
1.1 Methodology
1.2 Research
1.3 Research Methodology
1.4 Philosophies and Research Methodologies
1.5 Types of Research
1.6 The Purposes of Research
1.7 Relationship between Methodology and Method
2.1 Letting Your Deadline Slip
Being Afraid to Ask for Help
2.3 Making your Topic too Broad
2.4 Skimping on the Sources
2.5 Getting Unorganized
2.6 Being Sneaky
2.7 Adding “Fluff”
2.8 Not Having a Friend Read it Over
2.9 Trusting the Computer to Spell – Check
2.10 Forgetting Finishing Touches
3.1 Tips for Determining the Quality of your Research Paper:
3.2 Back to School Tips: How to Write a Research Paper
3.3 Brainstorm
3.4 Establish Goals
3.5 Put Honesty First
3.6 Double Check Citations
3.7 Do Not Set Yourself Up to Fail
3.8 How to Find Research Paper Topics from Everyday Life
4.1 Various Referencing Styles
5.1 Type I Type II Errors
5.2 Test of Significance
6.1 Systematic Sampling
6.2 Distinction between a Systematic Random sample and a Simple Random Sample
6.3 Stratified Sampling
6.4 Strategies involved in Stratified Sampling
6.5 Advantages of Stratified Sampling over other Sampling Methods
6.6 Disadvantages of Stratified Sampling
6.7 Some Non-Random Sampling Method
7.1 Unpublished Sources
7.2 Published Data
7.3 Necessary Guidelines for Collecting Reliable Data
7.4 Methods of Collecting Data
7.5 Some Stages in the Collection of Data
7.6 Design of a Good Questionnaire
1.1 Methodology is the systematic, theoretical analysis of the methods applied to a field of
study. It comprises the theoretical analysis of the body of methods and principles associated with
a branch of knowledge. Typically, it encompasses concepts such as paradigm, theoretical model,
phases and quantitative or qualitative techniques. (
Irny and Rose, 2005)
A methodology does not
set out to provide solutions - it is, therefore, not the same thing as a method. Instead, it offers the
theoretical underpinning for understanding which method, set of methods or best practices which
can be applied to specific case, for example, to calculate a specific result.
1.2 Research: The process of research came into being due to man’s quest to be at tune with his
environment and also understand nature. To achieve this, man uses the tools of experience and
reasoning available to him. Man also makes use of experience and authoritative sources beyond
his immediate circle. Experience and authority are rich and major sources of hypothesis, which
are based mainly on common sense knowledge and haphazard events, therefore it can be
unjustified for drawing conclusions on events. Hence research hypothesis formulation using
experience and authority is judged to be unscientific. Research anchors on scientific reasoning;
which could be inductive and deductive or both. Research is a combination of both experience
and reasoning and can be said to be the most appropriate way of discovering the truth, precisely
in the natural Sciences.
Research flow chart
Body of Existing Knowledge
Test Techniques
The need to research came due to the following reason
1. To acquire a degree
2. To get respectability
Testable Consequences
Evidence Evaluation of
New body of
3. To face a challenge
4. To solve a problem
5. To get Intellectual Joy
6. To Serve Society by increasing Standard of living for Science and technology and by
showing right path to society in case of social and behavioural Sciences.
Qualities of Good Research
A good research method should lead to
i Originality/ Novelty
ii Contribution to knowledge
iii Significance
iv Technical soundness
v. Critical assessment of existing work
1.3 Research methodology: This is a set of systematic technique used in research. This simply
means a guide to research and how it is conducted. It describes and analysis methods, throws
more light on their limitations and resources, clarify their pre- suppositions and consequences,
relating their potentialities to the twilight zone at the frontiers of knowledge.
Advantages of Research Methodology: The following are the advantages of research
1. Advancement of wealth of human being
2. Provision of tools for carrying out the research
3. Develops a critical and scientific attitude, disciplined thinking to observations
4. Enrichment of the research process and provision of chance for in-depth study and
understanding of the subject
5. Helps to inculcate the ability to evaluate and use research results with reasonable
confidence and in decision making
6. Inculcates the ability to learn to read and think critically.
1 Survey: This is used to obtain data about practices, situation views at one point in time
through questionnaire or interviews
2. Case Study: this involves an attempt to describe relationships which exist in reality
3. Simulations: This involves copying the behaviour of a system and is used in situations where
it is difficult to solve problems analytically. It typically involves the introduction of random
variables. It has a problem of making the data collected sufficient enough to resemble reality.
4. Subjective/argumentative research: This is used for generating new theories and ideas which
can subsequently be tested. It is subject to research bias. It is unstructured and subjective form of
5. Action research: This is the most useful form of research. It involves application in which the
researcher attempts to develop results or obtain solutions of practical value to the people with
whom the researcher is working and at the same time developing theoretical knowledge.
1.5 Types of Research
There are several criteria for the classification of research types these include method of research
and goal of research. Research can also be classified by the research method used. However,
many research projects use methods from more than one class.
i. Action Research: This type of research is mostly essential in applied research where it
requires implanting recommended changes to a process, bearing in mind to solve a
problem and to carry out research to determine the effectiveness of identified
changes. It aims at solving an identified problem based on recommendations made to
a process
ii. Creative Research: Creative research involves the development of new theories; new
procedures and new inventions and is used to some extent in all fields, in contrast to
experimental research, creative research is much less structured and cannot always be
preplanned. This type of research includes both practical and theoretical research.
iii. Descriptive Research: This type of research is also called a “case –study research”. It
involves studying a specific situation to ascertain whether any general theories may
arise out of it whether an existing theory are borne out by specific situations. e.g in
anthropological studies etc
iv. Experimental Research: The cornerstone of science is experimental and creative
research. Experimental research is primarily concerned with cause and effect. Here
the variables of interest are identified (i.e. the dependent and independent variables)
and the researcher seeks to determine the effect of changes in the independent
variables on the dependent variable.
v. Ex-post facto Research: This is Research “from after the fact” and this type of research
typically occurs using data generated from experimental research. While in
experimental research, the effect is determined from the cause, here the cause is
deduced from the effect.
vi. Expository Research: This is research based purely on existing information and
normally leads to “review –type reports”. It involves reading widely on a field,
comparing and contrasting, analyzing and synthesizing all points of view and
developing new insights.
vii. Historical Research: Studies on the past to determine cause-effect patterns. This type of
research is often geared towards using past events to examine current situation and to
predict future situation. e.g stock market forecasting. Data is gathered from primary
sources (records made at the time of past events) and secondary sources (records
made after the event). (
Lodico et al,2010)
1.6 The Purposes of Research
Research serves many purposes. Three of the most common and useful purposes, however, are
exploration, description, and explanation. Many studies can and often do have more than one of
these purposes, however each have different implications for other aspects of research design.
How to Design a Research Project
Undertaking a research project can be a bit difficult for a beginner who have never done one
before or who is embarking on an entirely new subject or research method. Where should he
start, and what are the proper steps involved? This section will serve as a guide to the process.
One important idea in a research project is the unit of analysis. The unit of analysis is the major
entity that is being analyzed in a study. It is the ‘what’ or ‘who’ that is being studied. Units of
analysis are essentially the things that are examined in order to create summary descriptions of
them and explain differences among them.
Some studies include more than one unit of analysis. In these instances, the researcher must
anticipate what conclusions he or she wishes to make with regard to each unit of analysis. For
instance, if a researcher is examining students’ expenditure in the tertiary institution, the unit of
analysis is individuals (tertiary institution students). Again, if a researcher is examining what
kinds of college students are most successful in their careers, but also wants to examine what
kinds of colleges produce the most successful graduate students, he or she is working with two
separate units of analysis: individuals (college students) and organizations (colleges).
1.7 Relationship between Methodology and Method
Methodology is the general research strategy that outlines the way in which a research project is
to be undertaken and, among other things, identifies the methods to be used in it. These
Methods, described in the methodology, define the means or modes of data collection or,
sometimes, how a specific result is to be calculated. Methodology does not define specific
methods, even though much attention is given to the nature and kinds of processes to be followed
in a particular procedure or to attain an objective.(Howell,2013) Any description of a means of
calculation of a specific result is always a description of a method, and never a description of a
methodology (Katsicas,2009,). It is thus important to avoid using methodology as a synonym
for method or body of methods. Doing this shifts it away from its true epistemological meaning
and reduces it to being the procedure itself, the set of tools or the instruments that should have
been its outcome. A methodology is the design process for carrying out research or the
development of a procedure and is not in itself an instrument, or method, or procedure for doing
Methodology and method are not interchangeable but, in recent years, there has been a tendency
to use methodology as a "pretentious substitute for the word method". Using methodology as a
synonym for method or set of methods, leads to confusion and misinterpretation, and
undermines the proper analysis that should go into designing the research.
At present research paper writing is a significant part of all academic curriculum and the students
must write a research paper during their educational period. Here, the main aim of writing a
research paper is for improving the skill to make use of collected information to support your
point of view on a particular topic. As a researcher you want to have a solid grip in the
fundamental ideas and terms used in the respective field that you are writing. It is simple to write
a good research paper if you understand the writing. It is also simple to write a good research
paper if you understand the writing pattern of a research. One of the important things to do
before setting out to write your paper is to make your time schedule. Research paper writing
includes many tasks such as thesis writing, collection of needed information, preparation of draft,
etc, as such; it should take more time. You need to split the time allowed for your research paper
to various processes. If the target period for your research paper is three months, then schedule
the first ten to fifteen days for managing your thesis statement, the next fifteen days for
collecting the useful resources to hold up your thesis and the following days for your writing
and editing process.
Choosing of a right topic is the next important thing to follow a research paper writer. You
should select a topic which is interesting to you to make the entire research process
straightforward. And confirm that you know something related to the topic for developing your
point of view on that topic. This will help you to save your time from a deep research. Collect
needed information to support your thesis using various resources available. Make use of great
books related to the topic, academic publications, magazines and internet resources such as
educational websites and blogs of educational institutions and government authorities.
Move to your writing processes with the collected resource. Go through your point of view on
the topic and use the appropriate resources to support it. Try at most to give a variation to your
research writing to give a better attraction to the final paper. If it is not clearly maintained, the
allocation of collected information will make bad effect in your entire research writing. Your
attitude towards the research writing process is the key factor which determines the final result of
your research. If you pay good attention, surely you will get a great result too.
In writing research papers, it is important to prevent some very common errors by avoiding these
research papers writing blunders enumerate below;
One never means to do it, but somehow deadlines often creep up out of nowhere. For big
research papers, try to make a timeline in your planner. Schedule dates that you would like to
have certain tasks completed (such as your outline and first draft) and maintain your progress.
For instance, as earlier stated, if you are targeting three months for your research paper, then
schedule the first ten to fifteen days for managing your thesis statement, the next fifteen days for
collecting the useful resources to hold up your thesis and the following days for your writing and
editing process. Making strides ahead of time will keep the stress and late- nights to a minimum
as the turn- in date draws nearer.
Everyone struggles with research paper writing from time to time. As a student, your professors,
supervisors, and librarians want you to succeed and, more than likely, they will all be eager to
help you or give advice where they can. Don’t hesitate to contact your professor/supervisor if
you are not sure of how to get started or how to progress with your paper; they are there to help
you. Schedule a meeting and bring along some of the work you have done so far. You may be
able to divide some of your research tasks into small chunks which can be tackled whenever you
have a little spare time. For example, if you take photocopies of materials you need to read, be
sure not to wait until the last minute to ask for help with things you should have ordinarily begun
long ago. As a researcher, it is always advisable to hook-up with a research assistant or a
consultant. You cannot know it all, there must be an area you would need an expertise advice to
achieve the desired quality required.
Once you start developing ideas for your research paper, try to narrow your focus down even
further. Papers that lack focus only skin the surface of a number of concepts, but never go into
the details. Challenge yourself to pick one very specific thesis and research as much as possible
to inspire you to flush out your ideas as best as you can. The thesis should serve two purposes, it
should guide you while you write and guide the readers when they read. The thesis should have a
strong argument based on a debatable claim”. Researchers need to review some existing
literature in their interest area in order to be focused on the interest topic, this review will expose
you to what others have been able to do in the same or similar area as such; could help you to
modify your topic and make it a peculiar one.
Providing credible sources and a lot of examples is a great way to let your audience/professor
know that you have actually performed thorough research and really understood the topic.
Doing great research may not assure you a great research paper if you cannot keep your materials
organized enough to call upon them later. You can even highlight the most important parts of the
source, make personal notes on the margins, and automatically create your bibliography – all
right on your computer. It is also possible to become unorganized within your very paper. It is
important to ask yourself the following questions to keep your focus:
Did I use my outline?
Is there anything that I missed?
Is there sense to my arguments?
Did I put everything in my own words?
Do my paragraphs connect and flow from one to the other?
Does my conclusion tie the entire paper together?
Changing the margins? Adjusting the line spacing? Altering the font size ever so slightly? Resist
the temptation to do this. When a template is given or when your professor sets a page length it is
not because they enjoy reading that specific page length in particular. It is because your professor
knows that page requirement is the amount of space that it will take to develop your topic to the
appropriate amount and earn the good grade you deserve. Following these advices will assure
that you do not need to try any of those tricks.
Sometimes meeting that page length requirement can be difficult when you feel as though you
have run out of things to say. Professors know fluff when they see it. They know you have
chosen to ramble on to fill the page requirement rather than do more research. Your introduction
and your conclusion should not generally exceed one page unless your paper is extremely long.
If you hit a wall, consider asking your professor for advice on where else you might go with this
topic or suggestions for further reading.
Sometimes when you have spent so many hours and days on a project, your exhausted eyes can
start to miss things. This concept may not make sense to anyone else, though it is necessary.
Have someone else do a read through of your paper, even if it is a quick one, to make sure that
your paragraphs are coherent and you have not made any obvious mistakes. Also, consider
visiting your school’s writing center for further help if they offer one. The more reviews, the
better. Sometimes there are centers that offer such services, register with them to get these
necessary services. Remember these sayings: nothing good comes easy, penny wise pound
foolish. Do not be too stingy with money; use it to obtain the necessary services it is meant for to
avoid making avoidable mistakes.
Just because you have managed to avoid those red squiggles while typing your research paper
does not mean your paper is error – free. Your computer will not always let you know when you
have used the wrong form of a word such as “you’re” or “their” but your professor certainly will.
Carefully read over your entire paper when you have finished to be sure you have avoided simple
spelling and grammatical errors. Professors hate reading silly mistakes as much as you hate
making them.
Often for big projects such as a research paper, professor will have very specific guidelines as to
how they would like it submitted to them. Make sure your name, class, and date are on it and do
not forget the staple! If your professor requested a cover page, binder, etc., do not forget to get
everything assembled ahead of time. You do not want to lose points on presentation after
working so hard on the research.
When it comes down to it, you know you are fully capable of writing a research paper worthy of
an “A.” What you need to do is avoid these common mistakes and give yourself enough time to
complete the assignment to the best of your ability. These back to school tips will help you learn
how to write a research paper and feel confident doing so. (James,2013)
Assignments are given to students to help them have a broader perspective of the topic they need
to research. The quality of the content matters a lot. Students fail to determine the quality of their
research paper before submitting the same. The research paper needs to have a good introduction
followed by thesis statement, body paragraphs and a conclusion.
Students need to understand the distinction between the local errors and the global errors. Local
errors are those pertaining to syntax, structuring of the sentence and the punctuation. The global
errors consist of those that are capable of affecting the large organization on a large scale. Ensure
that your paper is devoid of both kinds of errors.
3.1 Tips for determining the quality of your research paper:
1. The first thing that you need to do is to review your introduction. The introduction has to
be effective enough to keep the readers focused in the content. One needs to maintain the
length of the introduction. It should not be more than a page unless you have a very long
paper or in a case where you need to combine introduction together with the literature
review. Ensure to lead the introduction to the thesis.
2. Thesis has to be clear and precise. As earlier mentioned, the thesis should serve two
purposes, they should guide you while you write and guide the readers when they read.
The thesis should have a strong argument based on a debatable claim. The points in the
thesis should make your argument strong enough and convince the readers too.
3. The body paragraphs should follow your thesis statement. Do not introduce the same
points as specified in the thesis.
4. Review the paragraphs again. Check all the points in detail. Ensure that you have sub
points and examples for all the points that you incorporate in your body paragraphs.
5. Ensure that you have an excellent conclusion. Summarize your argument by highlighting
the important points in the conclusion.
6. Review the quotes mentioned in the paper. Citation styles are important; this will be seen
in later part of this write-up. Cite sources wherever needed. This is important for avoiding
7. Grammatical errors have to be seen and rectified. Small and simple errors can reduce
your score. These are how you can determine the quality of your research paper and
improve on it wherever/whenever the needed arises.
After every vacation, one is always busy getting back into the swing of things, but while you
have been away, you may have forgotten some vital information about how to write a research
paper. There may also be some key components of writing papers with which you have always
struggled. Here are some back to school tips to keep in mind while starting your first research
paper this school year to help create your best work.
The best way to write a great research paper is to choose a topic in which you are genuinely
interested in. Many professors allow you to choose your own topic, and if not, you can generally
choose your own direction to take it. Often, students will choose a topic that seems easy as
opposed to one they find interesting. Unfortunately, you will find that you quickly run out of
steam researching those “easy” topics. Choose something you are truly passionate about, narrow
it down from a broad idea, and get to researching! Check out these ideas on where to look when
brainstorming research topics from the post, from the smart students’ conference blog.
This massive paper may seem daunting when it is first assigned but this is your chance to get a
head start on things and establish goals. Pace yourself and allow time to do justice to your paper.
Outlines are a great way to stay organized. A fifteen page paper spread out over a few weeks is
no sweat if you set realistic goals and timeframes for yourself. (Planning to leave everything for
the last minute is not a plan; you will hate yourself for it later)
While developing your research paper, try not to forget that the craftier you become, the more
experienced your professors get, too. They have seen it all by now, so do not try to outsmart
them by taking shortcuts and not doing honest, well – developed research. Choosing credible
sources for your research paper is the only way to succeed. There are many ways for professors
to check whether or not your work is your own and the consequences could involve you failing
the assignment, the class, or in extreme cases even being expelled from your university. It’s
never worth it.
With the variety of ever- changing writing styles, it can be hard to get your works Cited or
bibliography page in order. It is always better to ask your professor for guidance than to fall
victim to unconscious plagiarism, which can still get you into trouble, if you are not careful
individuals also have a tendency to repeat information without remembering or giving credit to
where they got it from originally. This is why it is important to keep your sources and notes well
Simply because your professor assigns you what seems to be an impossibly long research paper
does not mean that you are doomed to fail. Your professors want you to succeed and are usually
quite eager to help. Do not be afraid to take on something extraordinary just because it may
require some hard work.
Staying on top of your research papers always makes life easier. With these five back to
school research paper tips, you will quickly be on your way to a stress- free research with results
you will be happy with.
Now, you imagine writing a fascinating, rewarding, and valuable research paper and getting a
good result? Then it is crucial that you start with brainstorming interesting research paper ideas
and getting a good research paper topic for the work.
Unfortunately, searching everywhere for already made research paper topics; twenty – four hours
a day do not solve the problem. All efforts to find plans for research paper online, in the libraries,
and from manuals appears to be in vain, for they are filled with battered, run – of the – mill
research paper topics, or even the ones that are impossible to research.
However, you will be able to derive a great research paper topic from anything you do
throughout a day. Continue reading, and you will find out how to find the best research paper
topic the way you like with ample information on its account.
Let us track your day- to – day activities and find out whether there are several ideas for research
papers you are able to come up with. Assume, it is Monday, After your noisy alarm wakes
you up, having a start and goes back into the harsh reality, you tuned on the radio hoping the
voice of the radio DJ will raise your spirits and tune you permanently for the day. This very
voice says that in five seconds you will be offered a regular astrological forecast. Whether
skeptically or whole- heartedly, you learn what is going to happen to you today.
Purse for a while; skeptically or whole – heartedly and tell yourself that it is high time for you to
decide on your opinion of astrology when it comes to a research paper topic in science that could
sound like: Is Astrology a Pseudoscience? This can serve as your first research paper concept of
the day.
Again, you are now rushing towards the university also it strikes you that almost all buildings
you are passing by are office blocks with costly equipment that should be protected by built –in
security gadgets. What exactly are Built- In Security Features in New Constructions? What can
they do? –This may be the heading of excellent research paper topic in Architecture.
Going further, you are in the university, a cradle of every day stress that drives you mad. Why
don’t you take a minimum of one advantage of the strain and turn this nagging daily problem
right into a good research paper topic? You may realize the reasons for stress and investigate the
issue on a scientific level.
Moreover, you can give a hint to your teachers; regarding how to alleviate tension within the
classroom inside your research paper and they will appreciate your efforts and evaluate your
paper at its true value.
Usually, after classes you go to a local cafeteria together with your friends where you can chat,
this will give you the opportunity to bite at any given time. Is that bite harmful? Or Are Junk
food synonymous with unhealthy foods? It can be a splendid research paper topic that might be
based on your personal experience, feelings of other consumers, and numerous poll results,
because the country is filled with fast food chains, one of them is the Shoprite.
Incidentally, how did Shoprite chain spread around the globe? Try to find out and write an
investigation paper about the Shoprite’s bread success story. It might be a nice investigation for
any business research paper.
As a matter of fact, daily you go to an area shop to purchase food, in which the cashier asks you
politely whether you will pay in cash or with a credit card. Things are now changing, in the past
nobody may even think of each one of these electronic devices, however we cannot do without
credit cards. Why? What Factors are adding to the Expended Utilization of Credit Cards? What
Might Influence their Decline?
After shopping you fill the refrigerator with stuffs humming your favorite song, but a weird
thought comes into your mind: How did our ancestors manage with food perseveration when
there were no fridges? There should have been some option to frost! That is a very nice topic
After the day’s hassles, at night, you take a seat in a comfortable chair watching Television,
probably the most favorite activity that can take approximately 170 minutes from Twenty four
hours, according to a consumer survey. Have you cared to pay attention to this burning problem
which needs immediate research? Try to investigate television activities because the
phenomenon from the modern world tries to look out for what it really gives and not just how it
influences our consciousness.
In the first seconds of watching television, you are most likely to trap a peek at annoying
advertisements; as such they take fifteen minutes out of an average television hour. Then you
think: Oh, Gosh! Not again! Television is not an Entertainment Medium, it is an Advertising
Medium. From there you get one other good research paper topic in Sociology that will be likely
to react to everyone’s feelings about advertisements.
Furthermore, before going to bed you want to take a bath, your younger brother/ sister appears.
You fell within the marathon towards the bathroom and wind up extremely mad near the closed
door. But rather than grumbling, you can thank your sibling for making one good research paper
topic enter into your mind: Do First – Born Children Vary from Those Who are Born Late? Do
you know the Possible Reasons and also the Significant Characteristics of these Variations?
You can now forget about your bath session and peacefully go to sleep, since the mission during
the day is complete: you have had enough research paper topic ideas.
As you can tell, it was not difficult. You will be able to find good research paper topics without
putting and excessive amount of effort into the search. The best idea is that you simply need to
stretch your hand and drive them in order to make sure to recognize good research paper topics
as they come around you.
Incoming search terms: The following are possible research paper ideas that may present as you
go by the day; food research paper topics, excellent research paper topics, Research Paper Topic
Ideas, conference paper based on personal experience, college research paper topic ideas,
research paper topics about college students, research paper topics about work, research paper
topic on ideas for food.
For many Ph.D. candidates, this is their ultimate goal, without much questions asked. Yet, when
you get the ball rolling, it quickly picks up its own momentum; it quickly starts to feel as if your
goal may get away from you.
Stepping back and considering this scenario more broadly, this is the precise moment we
typically look around and call out for some form of assistance. Run away dog posters allow
neighbors to help in searching for the missing dog. When you are lost in the woods, a flare
signals to authorities where you can be found. So, when it comes to something as important as
your Ph.D., why hesitate to seek out expert assistance if you feel you need it? Expert assistance
can come in many forms such as; guidance in writing, review of related literature, method of
analysis to be used, data collection/collation, analysis and proper interpretation of the analysis
result , overall proof reading etc.
Many dissertation clients can attest to the fact that they actually sorted the assistance of one
consultant directly or indirectly. Therefore it is normal, acceptable and should be encouraged in
order to carry out a quality research work with a maximum degree of originality/novelty. A
number of consulting firms exist for such services; one of such is Merc Data consulting, which
can be accessed through their website at
In addition, researchers may even benefit more as their papers are being published on time to
meet up with their demands. They can equally get assistance on how to embark on research or
how to write a good research paper of acceptable standard to avoid the stress of frequent article
rejection and demoralization that accompanies it. This assistance also extends to aiding in
sending papers out for publication in reputable journals with great impacts, organizing
seminars/workshops for clients. The seminars and workshops plays very important role to
researchers in the following ways:
It empower them to take personal responsibility by developing a road map that gets them
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There are various styles of referencing; we will look at the American Psychological Association
(APA). This style can be looked at based on the following guidelines.
American Psychological Association (APA): The American Psychological Association (APA)
style is a widely used author-date system of referencing or bibliographic citation. This chapter
covers basic explanations and examples for the most common types of citations used by students.
It is based on the Publication Manual of the American Psychological Association (6th edition)
which is available at all UWS libraries. If you are unable to find the referencing example you
require in this chapter, more detailed information and examples can be found in the above
publication. The APA Style Guide to Electronic References can be used for examples that are not
available in the Publication Manual. Current information can also be obtained via the Internet
from the official APA Style website which includes tutorial, a blog and
frequently asked questions. Corrected sample papers from the Publication Manual can also be
found on the APA website. (APA Referencing Style Guide)
4.1 Various Referencing styles
Referencing of Conference papers: Conference papers can be referenced in both text and in the
reference sections as follows
In text citation: Inside the text the citation follows the style as shown below:
(Shobhadevi & Bidarakoppa, 1994) or Shobhadevi and Bidarakoppa (1994) published their ... In
this case the authors followed with a coma and date of publication are enclosed in a bracket or
the authors followed with a date enclosed in a bracket as shown above.
In reference list: At the end of the study comes the reference section; which follows the style
Shobhadevi, Y. J., & Bidarakoppa, G. S. (1994). Possession phenomena: As a coping behaviour.
In G. Davidson (Ed.), Applying psychology: Lessons from Asia-Oceania (pp. 83-95). Carlton,
Vic., Australia: Australian Psychological Society.
Here the authors are listed followed by the date of publication which is enclosed in bracket. The
title of the article and the edition follows immediately after the date. The Journal name
Referencing Book by one author: In referencing a book written by one author, the citation
follows the styles as shown in both text and reference sections below:
In text citation: The citations done inside the text follows the style given below:
(King, 2000) or King (2000) compares Frame with "..." (p. 34).
In reference list: At the reference section, the style below is used:
King, M. (2000). Wrestling with the angel: A life of Janet Frame. Auckland, New Zealand:
Here the author’s surname and initial comes before the date which is enclosed in a bracket,
followed by the book title, place of publication and the publisher .
Books by three to five authors: If the authors of the book are from three to five, the citation is
done in the text as follows:
In text citation: Inside the text, the referencing follows the styles as shown below:
First in text citation: (Krause, Bochner, & Duchesne, 2006) or Krause, Bochner, and Duchesne
(2006) recommend "..." (p. 32).
Here the first time the citation is done in the text, all authors are cited.
In subsequent citations: According to Krause et al. (2006)
When the citation is done subsequently only the first authors name is listed followed by et al.
(short for et alii - Latin for 'and others'). Do not italicize et al.
In reference list: In the reference section, list all the authors and the date enclosed in a bracket
as shown below:
Krause, K.-L., Bochner, S., & Duchesne, S. (2006). Educational psychology for learning and
teaching (2nd ed.). South Melbourne, VIC., Australia: Thomson.
In this case, the authors surname and initial comes before the date which is enclosed in bracket,
followed by the title of the book and edition, place of publication and the publisher.
Journal article with continuous pagination: For journal articles with continuous pagination,
the citation styles for both inside the text and at the reference section follow the guide given
In text citation: The citation inside the text follow either the style of author, date all enclosed
inside a bracket thus: (Ferguson, 2014) or the author and the date alone inside the bracket as
shown: Ferguson (2014) delves...
In reference list: The citation at the reference section follows the style of author and date
enclosed inside a bracket. This is followed by the title of the article, the journal name and
volume in italics, and the page number normal. The Uniform Resource Locator (URL) is given at
the end. This is as shown below.
Ferguson, C. J. (2014). A way forward for video game violence research. American
Psychologist, 69, 307-309.
Journal article; electronic version with DIO: Some journal articles published electronically
have the digital object identifier. In such case the citation follows the style given below both in
the text and at the reference section.
In text citation: In the text, the citation style follows either Shepherd et al. (2007) or Shepherd
et al. (2007) highlight the... In this case et al. is used in the first citation.
In reference list: The citation follows the style given below at the reference section:
Shepherd, R., Barnett, J., Cooper, H., Coyle, A., Moran-Ellis, J., Senior, V., & Walton, C.
(2007). Towards an understanding of British public attitudes concerning human cloning. Social
Science & Medicine, 65(2), 377-392.
Here, all the authors are listed followed by the date enclosed in a bracket. This is followed by the
article title, the Journal name, the volume and the issue, then the pages and the DOI link. The
journal name and volume are in italics, the issue enclosed in a bracket closely follows the
volume and are separated by coma before the page numbers which are not in italics. The DIO
link comes last.
In 2012, APA published a supplement to the official APA Style Manual, where they announced a
change to the way the DOI was to be presented, from doi:10.XXXXXX (as is recommended by
Cross Ref in the sixth edition of the Publication Manual) to
This is to ensure that DOIs are resolved into working links. However, both are acceptable during
this transition period, therefore, when a DOI is available, include it in the reference.
Journal article without DOI: On the other hand, some journals do not have DOI, in such case
the citations, both in the text or at the reference section follows the style given below:
In text citation: Inside the text, the citation also follows either of these styles: In their research,
(Harrison & Papa, 2005) established ...or: In their research, Harrison and Papa (2005)
In reference list: As earlier stated, at the reference section, all the authors are listed followed by
the date enclosed in a bracket. This is followed by the article title, the Journal name, the volume
and the issue, then the pages and the source. The journal name and volume are in italics, the
issue enclosed in a bracket closely follows the volume and as usual are separated by coma before
the page numbers which are not in italics. The source which could be from the database, the
webpage or the URL is given. Below is an example:
Harrison, B., & Papa, R. (2005). The development of an indigenous knowledge program in a
New Zealand Maori-language immersion school. Anthropology and Education Quarterly, 36(1),
57-72. Retrieved from Academic Research Library database.
While giving the name of the database, as in the example above, do not include the database
URL. If the article was not retrieved from a library database, include the webpage name or URL.
Journal article in internet only (online publishing): Some journals publish both in printed
version and online version. For those publishing online alone, the style is as given below:
In text citation: Inside the text in case if there is no date, the citation follows either of the styles
below: (Snell & Hodgetts, n.d.) or Snell and Hodgetts (n.d.) identified "..." (para.3). If there are
no page numbers, cite the paragraph number in text as shown.
In reference list: At the reference section, follow the guide given below:
Snell, D., & Hodgetts, D. (n.d.). The psychology of heavy metal communities and white
supremacy. Te Kura Kete Aronui, 1. Retrieved from
Note that (n.d.) stands for no date.
Journal article cited in a secondary source: Sometimes authors cite references from a
secondary source. In such cases, the referencing in both the text and reference section follows
the guide below:
In text citation: Inside the text, the guide below applies:
(Lilieholm & Romney, 2000, as cited in Suntikul, Butler, & Airey, 2010) or Lilieholm and
Romney (2000, as cited in Suntikul, Butler, & Airey, 2010) argue that... Here the secondary
source containing the primary source and the primary source itself are enclosed in a bracket or
only the date of the primary source and the secondary source containing the primary source are
enclosed in a bracket.
In reference list: At the reference section, only the secondary source is cited, the style as shown
on the guide below:
Suntikul, W., Butler, R., & Airey, D. (2010). Implications of political change on national park
operations: Doi moi and tourism to Vietnam's national parks. Journal of Ecotourism, 9(3), 201-
Magazine in electronic form: Sometime fact can be extracted from a magazine, in such case the
referencing both in the text and the reference list follows the style below:
In text citation: The citation inside the text follows the style of author and date all enclosed in a
bracket or author outside the bracket with only the date in the bracket. This is shown below:
(Robison, 2008) or Robison (2008) considers...
In reference list: At the reference section, the citation is done as shown below:
Robison, J. (2008, January). On the waka wave. North and South, 262, 80-87. Retrieved from
Australia/New Zealand Reference Centre database.
Here the author is cited as usual, and the date which also includes the month is all enclosed in a
bracket. The article title not in italic comes immediately after the date, followed by the name of
the magazine, the volume and the pages all in italics. The name of the database without
including the database URL is also given. If there are eight or more authors, list the first six,
then an ellipsis (...) and finish with the last author.
Newspaper in printed form: In referencing information obtained from a newspaper publication
which comes in printed version, the reference in both text and reference section follows the guide
In text citation: Inside the text, the citation as usual follows the style given below:
(Cumming, 2003) or Cumming (2003) reports...
In reference list: At the reference section, the citation is follows the style as shown below:
Cumming, G. (2003, April 5). Cough that shook the world. New Zealand Herald, p. B4. Here the
author is outside a bracket while the date which also includes the month and the day is enclosed
in a bracket. The article title which is not in italics follows immediately. This is followed by the
Newspaper name in italics and the page before the page number. This is used for newspapers
only, not magazines or journals. Use p for 1 page, pp. more than one page. If page numbers are
discontinuous, separate page numbers with a comma. e.g. pp. A1, A4-5.
Newspaper in electronic version: If the newspaper is in electronic form the citation in both the
text and reference section follow the style given below:
In text citation: Inside the text, the citation as in printed version follows the style shown below:
(Cumming, 2003) or Cumming (2003) reports...
In reference list: At the reference section, the citation follows similar style as in printed version
except that the URL is given because it is in electronic form. The style is as shown below:
Cumming, G. (2003, April 5). Cough that shook the world. New Zealand Herald. Retrieved from The URL of the homepage of the newspaper is used as a direct link
to an online article in a news paper. This is because website is not a persistent link.
Newspaper without author: Some articles in a newspaper do not have authors, in such case, the
citations both in the text and reference section follow the style shown below:
In text citation: Inside the text, the title of the article is used in place of the author with a date
separated by coma all enclosed in a bracket as shown below:
("Drivers Reject Fuel Prices", 2003). Here, the title is abbreviated; double quotation marks are
used. Each letter of word is capitalized.
In reference list: At the reference section, the citation follows the style below:
Drivers reject fuel prices driven by war threat. (2003, March 7). Timaru Herald, p.1. Here,
because there is no author, the article title comes first. The date which includes the month and
the day are enclosed in a bracket. This is followed by the newspaper title in italics and the page
However, it is important to note that before submitting a work to a publisher, check the
journal referencing guidelines provided by the publisher as this may vary from one
publisher to the other.
A statistical hypothesis is a scientific hypothesis that is testable on the basis of observing a
process that is modeled through a set of random variables. It is a method of statistical inference
used for testing a statistical hypothesis.
A test result is said to be statistically significant if it has been predicted as unlikely to have
occurred by sampling error alone, according to a threshold probability known as the significance
level. Hypothesis tests are used in determining what outcomes of a study would lead to a
acceptance or rejection of the null hypothesis for a pre-specified level of significance. In the
Neyman-Pearson framework the process of distinguishing between the null hypothesis and the
alternative hypothesis is aided by identifying two conceptual types of errors known as the type 1
and the type 2, and by specifying parametric limits on for instance; how much type 1 error will
be permitted.
In making decisions on the basis of a sample, two errors are possible.
We may reject H
when it is true, i.e. when we ought to have accept it. When this happens, we
say that one has committed a type I error. Secondly, we may accept H
when actually H
is false.
This again is called type II error. A test of hypothesis is considered good if both errors of
judgments are minimized. This is not always possible. However in any particular situation, it is
better to minimize the more serious error.
Example 2:
Suppose we have the null hypothesis that a particular drug is not poisonous, i.e. H
drug is not
poisonous. Type I error: Reject H
when it is true. This means that we assume the drug to be
Type II error: Accept H
when H
is false. Here we try to minimize type II error and allow type I
error to dominate.
In testing a given hypothesis, the maximum probability with which we would be willing to risk, a
type I error is called the level of significance and it is often denoted by . We summarize this
level of significance in the diagram below. The curve below is meant for tests, involving normal
 
Statistical Estimation
If H
is true, then we can be 100(1-)% confident that Z lies within
 
 
However, if on choosing a single sample at random, it is found that Z is outside the unshaded
range, we would conclude that such an event would happen with probability of only - the
shaded regions – if H
is true. The total shaded region ‘represents the probability of our being
wrong in rejecting H
, i.e. the probability of committing type I error. Thus we may say that H
rejected at a 0.05 level of significance or that Z is significance at 0.05 level. The set of values of
Z outside the unshaded part constitute what is called the critical region or significance region or
region of rejection of H
. While the set of Z inside is called the region of acceptance of H
or the
confidence region or the region of non-significance.
The points separating the acceptance region from critical region is called the critical point of the
Thus the following decision rule can be formulated:
1) Reject H
at ‘’ level of significance if Z lies outside + Z
(1 - ).
2) Accept H
One-tailed and two-tailed tests: If in a test of H
, the critical region exist on both tails of the
curve of the sampling distribution as in the above figure, we call it two-tailed test. On the other
hand, if the test involves critical region appearing only on one side of the curve, we call it one-
tailed test. In two –tailed test, the area of the critical regions on each side of the distribution is
equal to ½ of the level of significant of the test.
An alternative framework for statistical hypothesis testing is to specify a set of statistical models,
one for each candidate hypothesis, and then use model selection techniques to choose the most
appropriate model. The most common selection techniques are based on either Akaike
information criterion or Bayes factor.
Statistical hypothesis testing is sometimes called confirmatory data analysis. It can be
contrasted with exploratory data analysis, which may not have pre-specified hypotheses
A hypothesis is a proposed explanation for a phenomenon. For a hypothesis to be a scientific
hypothesis, the scientific method requires that one can test it. Scientists generally base scientific
hypotheses on previous observations that cannot satisfactorily be explained with the available
scientific theories. Even though the words "hypothesis" and "theory" are often used
synonymously, a scientific hypothesis is not the same as a scientific theory. A working
hypothesis is a provisionally accepted hypothesis proposed for further research.
The Akaike Information Criterion (AIC): This is a measure of the relative quality of a
statistical model for a given set of data. That is, given a collection of models for the data, AIC
estimates the quality of each model, relative to each of the other models. Hence, AIC provides a
means for model selection.
AIC is founded on information theory; it offers a relative estimate of the information lost when a
given model is used to represent the process that generates the data. In doing so, it deals with the
trade-off between the goodness of fit of the model and the complexity of the model. It does not
provide a test of a model in the sense of testing a null hypothesis; i.e. AIC can tell nothing about
the quality of the model in an absolute sense. If the entire candidate models fit poorly, AIC will
not give any warning of that.
A statistical model embodies a set of assumptions concerning the generation of the observed
data, and similar data from a larger population. A model represents, often in considerably
idealized form, the data-generating process. The model assumptions describe a set of probability
distributions, some of which are assumed to adequately approximate the distribution from which
a particular data set is sampled.
A model is usually specified by mathematical equations that relate one or more random variables
and possibly other non-random variables. As such, "a model is a formal representation of a
theory" (Herman Adèr quoting Kenneth Bollen).
All statistical hypothesis tests and all statistical estimators are derived from statistical models.
More generally, statistical models are part of the foundation of statistical inference.
Statistics, like all mathematical disciplines, does not infer valid conclusions from nothing.
Inferring interesting conclusions about real statistical populations usually requires some
background assumptions. Those assumptions must be made carefully, because incorrect
assumptions can generate wildly inaccurate conclusions.
Here are some examples of statistical assumptions.
Independence of observations from each other (this assumption is an especially common
Independence of observational error from potential confounding effects.
Exact or approximate normality of observations.
Linearity of graded responses to quantitative stimuli, e.g. in linear regression.
There are two approaches to statistical inference they are the model-based inference and the
design-based inference. Both approaches rely on some statistical model to represent the data-
generating process. In the model-based approach, the model is taken to be initially unknown, and
one of the goals is to select an appropriate model for inference. In the design-based approach, the
model is taken to be known, and one of the goals is to ensure that the sample data are selected
randomly enough for inference.
Statistical assumptions can be put into two classes, depending upon which approach the
inference is used.
Model-based assumptions. These include the following three types:
Distributional assumptions. Where a statistical model involves terms relating to
random errors, assumptions may be made about the probability distribution of
these errors. In some cases, the distributional assumption relates to the
observations themselves.
Structural assumptions. Statistical relationships between variables are often
modeled by equating one variable to a function of another (or several others), plus
a random error. Models often involve making a structural assumption about the
form of the functional relationship, e.g. as in linear regression. This can be
generalized to models involving relationships between underlying unobserved
latent variables.
Cross-variation assumptions. These assumptions involve the joint probability
distributions of either the observations themselves or the random errors in a
model. Simple models may include the assumption that observations or errors are
statistically independent.
Design-based assumptions. These relate to the way observations have been gathered, and
often involve an assumption of randomization during sampling.
As far as statistical analysis is concerned, the confidence interval completely summarizes all the
information about the parameter of interest. It enables us to make probability statement about the
unknown parameter. Apart from giving the most likely values of the parameter, the interval can
in a similar way, be used to check whether the sample data contradicts some known results or
not. The following example illustrates this:
Do you think that the ages of the ten boys above are likely to come from a population of students
whose mean age is 17?
Because there is no information on , we estimate from the sample. We had to set up a 95%, and
99% confidence intervals for the population mean where is estimated from the sample, i.e.
(17.5, 18.7) and (17.3, 18.9) respectively, we can conclude that the value 17 falls outside 99%
interval, and therefore it is an unlikely value of the population mean. Thus, we can say that the
sample is not likely to have come from a population of student whose mean age is 17.
Sampling is concerned with the selection of a subset of individuals from within a defined
population to estimate characteristics of the entire population. Each individual variable measures
one or more properties (such as weight, location, color) of observable bodies distinguished as
independent objects or individuals. In survey sampling, weights can be applied to the data to
adjust for the sample design; this is particularly seen in stratified sampling. Results from
probability theory and statistical theory are employed to guide practice. In all fields of research,
sampling is widely used for gathering information about a population.
The sampling process comprises several stages:
Defining the population of concern
Specifying a sampling frame( sampling frame is a set of items/ a list or map containing
all the units from which a sample is drawn)
Specifying a sampling method for selecting items or events from the frame
Determining the sample size
Implementing the sampling plan
Sampling and data collecting
Data which can be selected
In statistics, a simple random sample is a subset of individuals (a sample) chosen from a larger
set (a population). Each individual is chosen randomly and entirely by chance hence it is
categorized as a probability sampling; such that each individual has the same probability of being
chosen at any stage during the sampling process, and each subset of k individuals has the same
probability of being chosen for the sample as any other subset of k individuals. This process and
technique is known as simple random sampling, and should not be confused with systematic
random sampling. A simple random sample is an unbiased surveying technique. Saul McLeod,
Simple random sampling is a basic type of sampling, since it can be a component of other more
complex sampling methods. The principle of simple random sampling is that every elementary
unit has the same probability of being chosen. For example, suppose N university students want
to get a gate -pass for a show, but there is only X < N gate passes for them, so they decide to
have a fair way to choose who gets to go. Then, everybody is given a number in the range from 0
to N-1, and random numbers are generated, either electronically or from a table of random
numbers (always contained at the back of every standard mathematical/statistical table).
Numbers outside the range from 0 to N-1 are ignored, as are any numbers previously selected.
The first X numbers would identify the lucky candidate to collect a gate pass.
In small populations and often in large ones, such sampling is typically done "without
replacement", i.e., one deliberately avoids choosing any member of the population more than
once. Although simple random sampling can be conducted with replacement instead, this is less
common and would normally be described more fully as simple random sampling with
replacement. Sampling done without replacement is no longer independent, but still satisfies
exchangeability, hence many results still hold.
Further, for a small sample from a large population, sampling without replacement is
approximately the same as sampling with replacement, since the odds of choosing the same
individual twice is low.
An unbiased random selection of individuals is important so that if a large number of samples
were drawn, the average sample would accurately represent the population. However, this does
not guarantee that a particular sample is a perfect representation of the population. Simple
random sampling merely allows one to draw externally valid conclusions about the entire
population based on the sample.
Conceptually, simple random sampling is the simplest of the probability sampling techniques. It
requires a complete sampling frame, which may not be available or feasible to construct for large
populations. Even if a complete frame is available, more efficient approaches may be possible if
other useful information is available about the units in the population.
Advantages are that it is free of classification error, and it requires minimum advance knowledge
of the population other than the frame. Its simplicity also makes it relatively easy to interpret
data collected in this manner. For these reasons, simple random sampling best suits situations
where not much information is available about the population and data collection can be
efficiently conducted on randomly distributed items, or where the cost of sampling is small
enough to make efficiency less important than simplicity. If these conditions do not hold,
stratified sampling or cluster sampling may be a better choice.
Table of Random Numbers: A table of random number is specially prepared for obtaining
random samples. To use this table all the units in the population are first of all numbered as
01-99, if the number of units in the population is less than hundred.
001-999, if it is less than 1,000.
0001-9999, if it is less than 10,000 etc. The table is then used to pick the desired number of units.
Suppose it is required to take a random sample of 5 students from a school of 99 students. We
first of all obtain the list of all the 99 students in the school. Since the number of students in the
schools is less than 100, we shall number the students as follows 01, 02, 03, …, 99. We then take
any two columns or rows of the random number table and run down the columns or cross the
rows. Any time we come across a different number between 01 and 99 we write it down. The
students whose numbers correspond to the first five different number obtained in this way form
our random sample of size five.
Frame: A frame is the list of all the population units from which the sample units are identified.
The units are called sampling units. In the above example of 5 students, the school list is the
frame. Note the difference between samples units and sampling units. The former are the objects
in a sample while the latter are the objects in the population. Common examples of frame are;
1) List of school, if a number of schools are being selected to form a sample.
2) List of all the students in a school if the number of students from the school is to be
selected to form the sample.
3) List of all tax payers in an area, etc.
6.1 Systematic sampling is a statistical method involving the selection of elements from an
ordered sampling frame. The most common form of systematic sampling is an equal-probability
method. In this approach, progression through the list is treated circularly, with a return to the
top once the end of the list is passed. The sampling starts by selecting an element from the list at
random and then every k
element in the frame is selected, where k, the sampling interval
(sometimes known as the skip): this is calculated as:
Where n is the sample size, and N is the population size.
Using this procedure each element in the population has a known and equal probability of
selection. This makes systematic sampling functionally similar to simple random sampling. It is
however, much more efficient (if variance within systematic sample is more than variance of
Systematic sampling is to be applied only if the given population is logically homogeneous,
because systematic sample units are uniformly distributed over the population. The researcher
must ensure that the chosen sampling interval does not hide a pattern. Any pattern would
threaten randomness.
Example: Suppose a supermarket wants to study buying habits of their customers, then using
systematic sampling they can choose every 10th or 15th customer entering the supermarket and
conduct the study on this sample.
This is random sampling with a system. From the sampling frame, a starting point is chosen at
random, and choices thereafter are at regular intervals. For example, suppose you want to sample
8 houses from a street of 120 houses. 120/8=15, so every 15th house is chosen after a random
starting point between 1 and 15. If the random starting point is 11, then the houses selected are
11, 26, 41, 56, 71, 86, 101, and 116. As an aside, if every 15th house was a "corner house" then
this corner pattern could destroy the randomness of the population.
If, as more frequently, the population is not evenly divisible (suppose you want to sample 8
houses out of 125, where 125/8=15.625), should you take every 15th house or every 16th house?
If you take every 16th house, 8*16=128, so there is a risk that the last house chosen does not
exist. On the other hand, if you take every 15th house, 8 multiplied by 15 equals 120, so the last
five houses will never be selected. The random starting point should instead be selected as a non
integer between 0 and 15.625 (inclusive on one endpoint only) to ensure that every house has
equal chance of being selected; the interval should now be non integral (15.625); and each non
integer selected should be rounded up to the next integer. If the random starting point is 3.6, then
the houses selected are 4, 20, 35, 50, 66, 82, 98, and 113, where there are 3 cyclic intervals of 15
and 4 intervals of 16.
To illustrate the danger of systematic skip concealing a pattern, suppose we were to sample a
planned neighborhood where each street has ten houses on each block. This places houses No. 1,
10, 11, 20, 21, 30... on block corners; corner blocks may be less valuable, since more of their
area is taken up by street front etc. that is unavailable for building purposes. If we then sample
every 10th household, our sample will either be made up only of corner houses (if we start at 1 or
10) or have no corner houses (any other start); either way, it will not be representative.
Systematic sampling may also be used with non-equal selection probabilities. In this case, rather
than simply counting through elements of the population and selecting every k
unit, we allocate
each element a space along a number line according to its selection probability. We then generate
a random start from a uniform distribution between 0 and 1, and move along the number line in
steps of 1.
Example: We have a population of 5 units (A to E). We want to give unit A a 20% probability of
selection, unit B a 40% probability, and so on up to unit E a 100%. Assuming we maintain
alphabetical order, we allocate each unit to the following interval:
A: 0 to 0.2
B: 0.2 to 0.6 (= 0.2 + 0.4)
C: 0.6 to 1.2 (= 0.6 + 0.6)
D: 1.2 to 2.0 (= 1.2 + 0.8)
E: 2.0 to 3.0 (= 2.0 + 1.0)
If our random start was 0.156, we would first select the unit whose interval contains this number
(i.e. A). Next, we would select the interval containing 1.156 (element C), then 2.156 (element E).
If instead our random start was 0.350, we would select from points 0.350 (B), 1.350 (D), and
2.350 (E).
6.2 Distinction between a systematic random sample and a simple random sample
Consider a school with 1000 students, divided equally into boys and girls, and suppose that a
researcher wants to select 100 of them for further study. All their names might be put in a bucket
and then 100 names might be pulled out. Not only does each person have an equal chance of
being selected, we can also easily calculate the probability P of a given person being chosen,
since we know the sample size (n) and the population (N):
1. In the case that any given person can only be selected once (i.e., after selection a person is
removed from the selection pool):
2. In the case that any selected person is returned to the selection pool (i.e., can be picked more
than once):
This means that every student in the school has in any case approximately a 1 in 10 chance of
being selected using this method. Further, all combinations of 100 students have the same
probability of selection.
If a systematic pattern is introduced into random sampling, it is referred to as "systematic
(random) sampling". An example would be if the students in the school had numbers attached to
their names ranging from 0001 to 1000, and we chose a random starting point, e.g. 0533, and
then picked every 10th name thereafter to give us our sample of 100 (starting over with 0003
after reaching 0993). In this sense, this technique is similar to cluster sampling, since the choice
of the first unit will determine the remainder. This is no longer simple random sampling, because
some combinations of 100 students have a larger selection probability than others – for instance,
{3, 13, 23, ..., 993} has a 1/10 chance of selection, while {1, 2, 3, ..., 100} cannot be selected
under this method.
In statistics, survey sampling describes the process of selecting a sample of elements from a
target population to conduct a survey. The term "survey" may refer to many different types or
techniques of observation. In survey sampling it most often involves a questionnaire used to
measure the characteristics and/or attitudes of people. Different ways of contacting members of a
sample once they have been selected is the subject of survey data collection. The purpose of
sampling is to reduce the cost and/or the amount of work that it would take to survey the entire
target population. A survey that measures the entire target population is called a census or
complete enumeration.
Survey samples can be broadly divided into two types: probability samples and non-probability
samples. Probability-based samples implement a sampling plan with specified probabilities
(perhaps adapted probabilities specified by an adaptive procedure). Probability-based sampling
allows design-based inference about the target population. The inferences are based on a known
objective probability distribution that was specified in the study protocol. Inferences from
probability-based surveys may still suffer from many types of bias. The following points should
be noted concerning survey sampling:
Surveys that are not based on probability sampling have greater difficulty measuring their
bias or sampling error. Surveys based on non-probability samples often fail to represent
the people in the target population.
In academic and government survey research, probability sampling is a standard
procedure. In developed countries; for instance in the USA, the Office of Management
and Budget's "List of Standards for Statistical Surveys" states that federally funded
surveys must be performed:
Selecting samples using generally accepted statistical methods (e.g., probabilistic
methods that can provide estimates of sampling error). Any use of non probability
sampling methods (e.g., cut-off or model-based samples) must be justified statistically
and be able to measure estimation error.
Besides, random sampling and design-based inference are supplemented by other
statistical methods, such as model-assisted sampling and model-based sampling.
For example, many surveys have substantial amounts of non response. Even though the
units are initially chosen with known probabilities, the non response mechanisms are
unknown. For surveys with substantial non response, statisticians have proposed
statistical models, with which data sets are analyzed.
The model-based approach is much the most commonly used in statistical inference; the design-
based approach is used mainly with survey sampling. With the model-based approached, all the
assumptions are effectively encoded in the model.
6.3 Stratified sampling is a method of sampling from a population. In statistical surveys, when
subpopulations within an overall population vary, it is advantageous to sample each
subpopulation (stratum) independently by stratifying them. Stratification is the process of
dividing members of the population into homogeneous subgroups before sampling. The strata
should be mutually exclusive: every element in the population must be assigned to only one
stratum. The strata should also be collectively exhaustive: no population element can be
excluded. Then simple random sampling or systematic sampling is applied within each stratum.
This often improves the representativeness of the sample by reducing sampling error. It can
produce a weighted mean that has less variability than the arithmetic mean of a simple random
sample of the population.
In computational statistics, stratified sampling is a method of variance reduction when Monte
Carlo methods are used to estimate population statistics from a known population
6.4 Strategies involved in Stratified sampling
1. Proportionate allocation uses a sampling fraction in each of the strata that is proportional
to that of the total population. For instance, if the population X consists of m in the male
stratum and f in the female stratum (where m + f = X), then the relative size of the two
samples (x
= m/X males, x
= f/X females) should reflect this proportion.
2. Optimum allocation (or disproportionate allocation) - Each stratum is proportionate to the
standard deviation of the distribution of the variable. Larger samples are taken in the
strata with the greatest variability to generate the least possible sampling variance.
Stratified sampling ensures that at least one observation is picked from each of the strata, even if
probability of it being selected is far less than 1. Hence the statistical properties of the population
may not be preserved if there are thin strata. A rule of thumb that is used to ensure this is that the
population should consist of no more than six strata, but depending on special cases the rule can
change - for example if there are 100 strata each with 1 million observations, it is perfectly fine
to do a 10% stratified sampling on them.
A real-world example of using stratified sampling would be for a political survey. If the
respondents needed to reflect the diversity of the population, the researcher would specifically
seek to include participants of various minority groups such as race or religion, based on their
proportionality to the total population as mentioned above. A stratified survey could thus claim
to be more representative of the population than a survey of simple random sampling or
systematic sampling. Below are some of the advantages and disadvantages of stratified sampling.
6.5 Advantages of Stratified sampling over other sampling methods
If population density varies greatly within a region, stratified sampling will ensure that estimates
can be made with equal accuracy in different parts of the region, and that comparisons of sub-
regions can be made with equal statistical power. For example, in Ontario a survey taken
throughout the province might use a larger sampling fraction in the less populated north, since
the disparity in population between north and south is so great that a sampling fraction based on
the provincial sample as a whole might result in the collection of only a handful of data from the
Randomized stratification can also be used to improve population representativeness in a study.
6.6 Disadvantages of Stratified Sampling
Stratified sampling is not useful when the population cannot be exhaustively partitioned into
disjoint subgroups. It would be a misapplication of the technique to make subgroups' sample
sizes proportional to the amount of data available from the subgroups, rather than scaling sample
sizes to subgroup sizes (or to their variances, if known to vary significantly e.g. by means of an F
Test). The problem of stratified sampling in the case of unknown class priors (ratio of
subpopulations in the entire population) can have deleterious effect on the performance of any
analysis on the dataset, e.g. classification. In that regard, minimax sampling ratio can be used to
make the dataset robust with respect to uncertainty in the underlying data generating process.
Practical example
In general the size of the sample in each stratum is taken in proportion to the size of the stratum.
This is called proportional allocation. Suppose that in a company, the following staff exists:
male, full-time: 90
male, part-time: 18
female, full-time: 9
female, part-time: 63
Total: 180
If we are required to take a sample of 40 staff, stratified according to the above categories; the
first step is to find the total number of staff (180) and calculate the percentage in each group.
% male, full-time = 90 ÷ 180 = 50%
% male, part-time = 18 ÷ 180 = 10%
% female, full-time = 9 ÷ 180 = 5%
% female, part-time = 63 ÷ 180 = 35%
This tells us that of our sample of 40,
50% should be male, full-time.
10% should be male, part-time.
5% should be female, full-time.
35% should be female, part-time.
50% of 40 is 20.
10% of 40 is 4.
5% of 40 is 2.
35% of 40 is 14.
Another easy way without having to calculate the percentage is to multiply each group size by
the sample size and divide by the total population size (size of entire staff):
male, full-time = 90 × (40 ÷ 180) = 20
male, part-time = 18 × (40 ÷ 180) = 4
female, full-time = 9 × (40 ÷ 180) = 2
female, part-time = 63 × (40 ÷ 180) = 14
Cluster Sampling: In many situations the population units belong to some natural group. For
instance, the school constitutes a natural grouping of school children if the population of school
children is of interest while markets constitute a natural grouping in a study where interest is to
know the prices of foodstuff.
These natural groups consisting of the units of interest are called Clusters. A sample of
clusters may be selected from all available clusters of interest and all the units in the selected
clusters are then studied – this is known as cluster sampling.
Multi-Stage Sampling: Suppose a study is carried out which will use the all the states in the
country. The investigator may first randomly select six states (1
stage), out of these six states,
he randomly selects ten local government areas from each of the six states (second stage). This is
two stage sampling. He may decide to have 3-stage by going to zones. Notice that each stage
constitutes a cluster.
6.7 Some Non-Random Sampling Method
Any sampling procedure where chance devices are not used to select the required sample
is said to be non-random.
Examples of non-random sampling scheme are:
1) Systematic Sampling
2) Quota Sampling
3) Haphazard Sampling
Systematic Sampling: This sampling procedure as earlier discussed is the one in which the
sampling units are selected at fixed interval from the frame. Example, instead of selecting a
random sample of ten students from a school, one may select a systematic sample in which every
ninth name on the school list of 90 names is picked.
The main disadvantage of this is that one may end up having units that resemble each
other because they coincide with some unexpected periodic variation in the frame. In practice,
one can introduce randomness here by randomly deciding where on the list he will start picking
Quota Sampling: Here one attempts to represent different classes that may exist in a given
population. It is commonly used in public opinion and market research surveys. In such surveys,
the interviewers is required to ensure that specified number of units in various classes like age,
sex, income group, geographical location are included in the sample. The big difference between
this and stratified is the lack of well defined rule of selection in quota sampling. In stratified
sampling, apart from random selection from each stratum, the units to be included in the sample
are known before sampling. With quota sampling these units are not known in advance.
Haphazard Sampling: Here the selector thinks that he is making a random selection. A good
example is the sort of selection in public places often made by:
1. Press agents
2. Business promoters
Who interview people anyhow, seeking their views about something that is of interest to them?
No chance device is however used in this type of selection. You can think of many possible
biases that can come into such haphazard selection.
In any study, an investigator may have a choice of collecting the relevant data himself or of
relying entirely on existing data already collected by someone else. The former is called the
Primary Sources while the latter is called Secondary Sources of data. For example, in a study
of weights of first year students, an investigator may choose to observe some first year students
in certain schools in the area of interest, he therefore uses a primary data. However, if schools
keep records of weights of all entering students, the investigator can use such data if he likes, he
is thus using secondary data.
Whether primary or secondary, data may be published or unpublished.
7.1 Unpublished Sources:
Data in their original form such as number of births, and deaths in a locality, names of
taxable adults in an area, ages of school children in a country etc may exist in the files, log
books, registers, etc of government or non-governmental departments. These departments
include ministries, schools, churches, hospitals etc. To obtain data from these sources require a
lot of effort, time and money.
7.2 Published Data:
The following are the main sources of published data:
a) Statistical abstracts, bulletin, and reports issued by government department. A data here
may be primary or secondary.
b) Reports of government and non-government agencies.
c) Research reports and journals.
d) Daily newspapers, magazine, and periodicals.
The data here may or may be reliable; hence caution is required in using them.
7.3 Necessary Guidelines for Collecting Reliable Data
The following consideration may be borne in mind when embarking on any data collection.
a) The cost of collecting the data
b) Practicality of proposed methods of collection.
a) If sampling is used, the samples must be a representative of the population. A
representative sample gives equal chances to every member of the population to be
included in the sample. Some of the sampling techniques will be treated later in the text.
b) The various errors and biases which may lead to wrong conclusion must be minimized, or
if possible avoided.
Errors come into collection of data, for instance, when the wrong type of data not suitable
for the problem under investigation is collected. Bias is introduced, for example, when the
investigator either because of convenience or some other reason allows his personal feelings to
override statistical principle.
e) Too much time should not be spent in collecting the data.
For the investigator who uses other people’s data, it is still essential that he knows how
the data was collected. Such knowledge and the above criteria should enable him to decide on
the reliability of the data and its suitability for the problem under study. (Igwenagu, 2007)
The guidelines listed above come for consideration at various stages of an investigation. Before
discussing these various stages, we need to distinguish between two types of investigations – the
survey and the experimental types. We are very familiar with the term ‘experiment’ in
Chemistry, Biology, Physics etc.
A survey is the observation of either the entire population (this is known as census), or the
observation of the part of population (we call this sample survey). We can recognize the
following three major differences between survey and experiment.
a) Experiments are mainly used to obtain data in the natural sciences, while surveys are
used for the same purpose in social sciences and education.
b) In the experimental type, the investigator (experimenter) is very often able to control
some factors which are not relevant to the problem under study in order to minimize bias
in his conclusion. In surveys, the investigator cannot control any of the irrelevant factors.
c) The population of interest in experimental type is always infinite while that of surveys is
usually finite.
In trying to collect data, either through experiments or surveys, the following stages should be
borne in mind.
1) Formulation of the problem
2) Planning the study
3) Design of the study
Formulation of the Problem
Before starting to collect data, the investigator must first of all determine the problem to
be solved and specify its objectives.
As an illustration of problem statement, suppose a government Ministry of Education is
thinking of regulating the spending habits of children in the boarding schools. Before making
policy decisions, the government will first need to know the following facts;
i) The normal needs for which pocket money will be required.
ii) The present range of the amount of pocket money among the students.
iii) How the students spend their pocket money.
iv) Such other facts as age, sex, location of school, parental income, etc.
If all the above facts are not well known we might decide to find out more about them. A
problem for study can then be formulated thus:
Problem: To find out the present level of pocket money among boarding school children, how
such money is spent, and the influences of such factors are age, sex, seniority in school, location
of school and parental income on the amount of pocket money and the spending habits of the
With the problem clearly stated, we can now consider the next stage.
Planning the Study: The investigator’s next stage is to plan the study. He has to plan how best
to solve his problem. In fact his plan will include
a) The coverage
b) Search for available information
c) Recording of the data and
d) Pilot survey
Coverage: Areas to be covered and types of object to be observed are determined. If the
population of interest is infinite, then a sample may be used. If it is finite, the investigator will
decide whether to use sample still or the whole population. Of course, there are obvious
advantages for using a sample instead. For instance, cost of collecting data is reduced, time spent
will also be reduced. Greater accuracy in the data is ensured. Since a few observations are
involved, results from well planned samples are as useful and informative as those from the
whole population.
Search for Available Information: This information may exist in the form of written reports
which may be published or unpublished. It enables the investigator to know what is available and
what remains to be done. It also helps him to learn from mistakes or constraints of the previous
investigator in similar studies.
Recording of the Data: The investigator at this stage will have to decide how the data are to be
recorded, i.e. whether to use the questionnaires type or direct observation type.
A questionnaire consists of questions and answers. It is usually used when studying human being
and their social activities. The questions and answers may be written or oral. When oral answers
are given, such answers which constitute the data must necessarily be recorded by the
interviewer who is sometimes called the enumerator. Written questions can be sent by mail or
accompanied by the interviewer. Both methods have their merits and demerits. The merits of
mailed questionnaire include the following:
i) The respondent can take time to fill the questionnaires without the undue pestering by the
ii) He is more likely to co-operate in questions of confidential nature.
iii) It is less expensive.
On the other hand, mailed questionnaire has got its disadvantage. Some of which are:
i) The percentage of non-response can be very high
ii) The questions can get lost.
In the case of using interviewer to collect data directly, greater returns are assured, especially if
the enumerator is the persuasive type.
The interviewer has the opportunity of explaining difficult questions. On the other hand,
direct observation is very expensive and requires more time to carry out. In the direct observation
the investigator observes directly either the whole population or part of it. This is commonly
used for experiments in the areas of sciences, agriculture, medicine etc. It is worthwhile top
mention here that there are obvious disadvantages in observing the whole population:
i) More time is required
ii) More money is also needed.
iii) A large number of interviewers and respondents are involved resulting in an increase in
the problem of definition, interpretation of the concept.
iv) Incompleteness may arise as a result of lack of interest shown by some members of the
v) Some remote areas may not be accessible.
Pilot Survey: In some cases the investigator may discover that the available information is so
scanty that embarking on the study might result in a waste of money and efforts without
necessarily achieving the objectives. It becomes desirable then to carry out the preliminary study
before the main study. Such a study is called Pilot Survey or Study and it is normally done on a
much smaller scale than the one in view.
A pilot study has the following objectives.
1) It helps to estimate the cost of the main survey.
2) It helps to taste and establish procedures to be used in the main study.
3) It helps to discover the difficulties and short-comings of the questionnaires.
4) It may lead to new ideas not originally included in the formulation of the problem.
5) It may help to discover the type of variation existing among the units of the population of
The variation may enable the investigator to determine the type of sampling method and the
sample size to use. If we pretest our questionnaire, on a few respondents, any unsuspected
obscurities and difficulties in the questions are likely to be discovered and rectified.
Designing the Study: After the planning and possibly a pilot survey, the following final touches
are then carried out:
a) The size of the experiment or sample is obtained, if sampling is to be used, this is the
number of observation to be made.
b) The sampling and experimental procedures to be used are determined. Discussion on
some sampling techniques will be given later.
c) The questionnaire if needed is constructed.
A sample questionnaire will be provided later.
d) Recorders or interviewers are trained.
Experimental procedures will include the decision on:
i) The number and type of variable to be observed.
ii) How treatments if any area to be spread or assigned to observation units.
iii) The type of observation unit to be used.
Observation units are identifiable physical entities on which a variable(s) is measured.
Example: In the study of heights and weights of school children, the children themselves are the
observation units while their heights and weights are variables of interest. To minimize biases
and errors in the conclusion drawn from experiment, treatments are assigned to the observation
units in such as way that objects benefit equally from the treatment. Many examples of the
procedure exist, for instance in Agriculture when comparing two or more crops or fertilizers; in
medicine, when comparing the effect of two or more drugs. In the former, plots of lands are the
observation units while crops and fertilizers are the treatments.
Similarly in the later, patients are the observation units while the drugs constitute the
The following terms are commonly used in questionnaire: a respondent is the person
who answers question in a questionnaire. He can help to promote collection of data by co-
operating with the interviewer or he can spoil the investigator’s master-plan through his distorted
answers, non-response, unnecessary enthusiasm to give answers that will please the interviewer.
An observation unit, which can be defined as an identifiable physical entity on which
such observations as measurements or attributes can be made is called enumeration unit. One or
more variables may be observed on a unit. For example, in the pocket money survey, the
students will be the respondent, he is also the unit on which to observe such attributes as the
amount of pocket money, his age etc.
However, in a study to find out the most popular brand of baby milk among babies of a
specified age range, each baby is the observation unit. But the respondent must necessarily be
someone else like his parent or guardian, since the baby cannot answer questions himself.
Having selected the topics to be included in the survey, we must formulate questions to cover
each topic. The number, order and type of questions constitute the main elements of design of a
The following are the guidelines for the designing of a good questionnaire:
i) Number of Questions: The number of questions depends on the number of topics or variable
being studied. Ideally they should be as few as possible. Too many questions, resulting in a
lengthy and voluminous questionnaire may discourage a respondent from given the type of co-
operation that he might have given with fewer questions. Repetition of questions should be
ii) Arrangement and Order of the Questions: A well-arranged and well-ordered sequence
of questions showing a logical and continuous flow of thought could be very helpful to the
iii) Simplicity and Clarity: Simple, clear and unambiguous questions are more likely to have
more meaningful responses than complicated and ambiguous questions. For example, a study in
which one of the topics of interest is the marital status of the respondent, questions like “Married
or Single” is not clear or that is ambiguous. Divorcees and widowers are left out. As an
alternative may be: are you unmarried, married, widowed, divorced or separated? Where difficult
or ambiguous questions are unavoidable, explanatory notes should be given so that the entire
respondent interprets the questions in the same way. For instance, in a study involving families,
the term ‘family’ should be defined. Does it consist of man, his wife, his children or does it
include maids and houseboy etc.
iv) Open-ended and Closed-ended Questions: Questions leading to definite answers are to
be preferred to those that call for many possible answers which cannot be classified easily. The
former type is said to be closed-ended, while the latter is open-ended. A question framed in such
a way as to demand only ‘Yes’, ‘No’ or ‘don’t know’ is an example of a closed-ended question.
v) Other points:
a) Leading questions should be discouraged. These questions lead to the answers desired by
the investigator himself and so introduce bias into the data. They are meant for lawyers in
the law court.
b) Provoking questions should be avoided where possible. These are personal and
confidential types of questions which intrude into the privacy of the would-be respondent
unless they are absolutely necessary. (Igwenagu Opcit)
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... Primary data collection is collecting data by investigators themselves from the sources and secondary collecting data is collecting data from over the phone or secondary sources. [12] Some of the core research strategies are survey, case study, experiment, ethnography, action research, grounded theory, cross section studies. Interview is another strategy required qualitative research. ...
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Many hospitals in Bangladesh have yet to be digitalized in this modern age, while other countries around the world are rapidly digitalizing their healthcare systems. It was important to know the challenges faced by the healthcare sector in digitalization because, considering the challenges, the government can take action. The research was also important to show how green the environment is becoming through digitalization. The goals of the study are to identify the processes, benefits and challenges of going green in the healthcare sector of Bangladesh. Qualitative analysis has been done by interviewing some medical peoples to get the answers of the research questions. Most of the hospitals are not fully digitalized especially the govt. hospitals. In order to be digital organizations are facing training, manpower and budget issues. It is possible to digitalize the healthcare sector in Bangladesh, but it will take a long time. Various research in Bangladesh shown that they have explored the current situation of digitalization in healthcare. This study found out which process are digitalized in healthcare sector and what were the challenges. This thesis will be useful for those who want to make their organization paperless.
... Probability Sampling: Probability sampling design is selected by chance or in other words every element has the equal chance of probably to be selected from the population. It further divided into five types of techniques (Igwenagu, 2016). Four types of methods are used in probability sampling systems. ...
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Background: Research process and data analysis has been studied widely in academic and business surrounding since its starting point but the most students do not care about the book learning of concept, need and direction of the research. To move the new area of exploration in every fields of life, the student need to acquire/develop awareness about recognition, description and solutions of the problems regarding decision making process. The aim of this study is to review the process of research and steps involved in data analysis. This study teaches how to select a research design, how to make conceptual framework, and how to plan analysis of data .This study guides to understand the evaluation of assumption of research, assess the fitness of model and interpretation of variables. This study provides proper knowledge about research plans and statistical software's such as AMOS, SPSS and EViews, which help the student and researchers to integrate the methods in all area of research process so that, they could successfully complete their research projects and articles. Purpose of the Research: The purpose of this study is to provide the familiarity and necessary skills for the students and researchers in completing their research project and decision making process .The main objective of this study is to put emphasis on the need of learning research process for the student of developing nations and help the students, managers, researchers and, policy makers to learn how to conduct research and prepare reports or present suggestions to solve the problems and improve the performance of their related filed. Design/Methodology/Approach: This is a literature based review study and articles and case studies have been reviewed for this study. Finding: This study gives emphasize the need of learning the process of research. A good student always think about all the problems present in him/her Society and look into all alternates than try to give best solution of these problems. This study give emphasizes to follow the research ethics though out our research work and help the students and researchers about how to explain the problem, how to define the purposes of the research, how to identify the variables and relate them with the objectives of the results as well as it teach how to collect and analyze the data to produce valuable suggestions from the results of your research work. Implications/Originality/Value: It is concluded that without learning an appropriate research mythology and data analysis, a student could not write a research project successfully and a manger may damage the performance of his/her organization by taking wrong decision. So this study motivate the reader to conduct research before decision making process, .it stress that Introduction: Habib & Maryam (2014) have suggested that, the students complete a research assignment step by step to provide the useful information and skill to all researcher and students. To follow these steps anyone can solve his/her problem to make a satisfactory decision or write a research proposal for business or academic purpose. Every student needs to gain sufficient knowledge and understanding in research not only to complete his/her research project but to become a good researcher and administrator of his/her field. To look into the problem critically and with aim a good researcher need to know the statistical evidence regarding the area of research (Denscombe, 2017). We conduct research work to bring betterment in our society.In other words the R&D is an effort through we find the way to make advance or improve our product and services. The value of your research is determined by the objective and the nature of your research problem (Horton, 2003).
... Permitiu, também, aprofundar-se nas questões apresentadas, "humanizando" a investigação (Sharma, 2018). Ademais, os questionários presenciais permitem um nível de retorno elevado, sobretudo se o entrevistador tiver capacidade persuasiva (Igwenagu, 2016). ...
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Os desafios empresariais são assuntos de estudo dentro do contexto das Pequenas e Médias Empresas (PME). O presente trabalho visa identificar os desafios que as PME enfrentam para crescer e sobreviver no mercado e suas medidas para superar estes desafios. Para isso foi feito um estudo de caso em três empresas do setor comercial de vestuário localizadas na Covilhã, em Portugal, e usada uma abordagem qualitativa a fim de se entender e investigar mais profundamente o fato. Assim, tem-se um artigo com conhecimentos peculiares de negócios do setor de roupas, pesquisas que são atípicas. Como resultado, percebeu-se que os principais desafios que elas enfrentam estão relacionados à burocracia e à competitividade de mercado. Podem, pois, superar a concorrência, sem prejuízo de outras medidas, adotando a inovação.
... The term research methodology corresponds to the systematic examination of a series of techniques, principles, and assumptions relevant to the field of investigation (Igwenagu, 2016). ...
... Research methodology is a set of systematic technique that provides a guide of how research is conducted and identifies the methods to be used (Igwenagu, 2016). Research methodology comprises research methods, research design, target population, sampling methods, sample size, research instruments, data collection procedures, pre-testing of research, ethical consideration and data analysis. ...
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The aim of the study was to investigate the use of social media in the marketing library and information services at Saint John of God College of Health Sciences library in Mzuzu City, Malawi. The objectives of the study were to: determine the status of social media use for marketing of library services and resources at Saint John of God College of Health Sciences library in Mzuzu City, Malawi; determine the perception of staff and students in the use of social media tools in marketing library and information services at Saint John of God College of Health Sciences library in Mzuzu City, Malawi; determine any benefits in using social media tools in marketing library services at the Saint John of God College of Health Sciences library in Mzuzu City, Malawi. The case study design which necessitated use of the qualitative approach was used. Data was collected using an interview guide and a focus group discussion guide. The study targeted 4 library staff and 12 Students and all responded representing a 100% response rate. Face to face interviews were conducted and the researcher was present on all focus group discussions. Data collected was collected through voice recordings and note takin and it was analysed thematically. The study revealed that the library does not use social media as a marketing tool. Bot staff and students are aware of social media use as a marketing tool and they have a positive attitude towards the use of social media as a marketing tool in library setting. Furthermore, the study established that the main impediments to use of social media as a marketing tool at the library was lack of training on the same and lack of policies to guide the use of social media. In conclusion, the study recommended that the library management should provide opportunities for training for librarians to enable them handle modern technology effectively and they should provide a wired environment that facilitate smooth communication of internet supported delivery of library; Policies should be put in place to guide on the integration of social media platforms as marketing tools at the institution; A two-way social media platform should be set up for marketing resources and receiving feedback. Moreover, the researcher recommended that a business WhatsApp account and a Facebook page should be opened for the library to market its services and resources
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Flipped classroom is a pedagogical model that employs video, reading assignments, practice problems, and other digital technology-based resources outside the classroom to introduce the concept for more meaningful learning. In the Bhutanese education system, the conflict between limited availability of time and coverage of large volumes of syllabus material has become a central issue in curriculum design. Therefore, this study explored how flipped classrooms could be mediated to free up of classroom instructional hours without affecting student learning. This study also assessed students' attitudes towards flipped classroom strategy. A total of 83 students participated in this study. A pre-test and post-test experimental research design for classroom instructional hours and survey questionnaire were employed to study students' attitude towards flipped classroom strategy. SPSS was used for statistical analysis of the data on attitude rating and pre-test and post-test difference. Key findings include flipped classroom saved an average of up to 13.29% of instructional hours without affecting students' learning. The difference of pre-test and post-test mean score for learning between the experimental and control group is not significant (p>.05, t=0.394). However, with a mean score of 4.60 on a five scale Likert scale for positive statements and a mean score of 1.49 for negative statements, students have positive attitude towards flipped classroom.
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The concept of Soft Power is reflected in this study in its clearest form and objectives in the model of the use of the Turkish TV series in the world in general and the North African countries in particular. Based on this, the aim of this study is to shed light on the viewers of modern Turkish TV series in Algerian society and to examine the different habits and motivations for watching these series. This study also investigated how the content and messages of these series affect Algerian viewers and how they serve the country's soft power in Algeria. This study adopted a quantitative approach where the researcher examined a section of Algerian society that formed the sample of the study. The online survey used questionnaires as a tool to collect data from a purposively selected sample of Algerian society. A total of 750 questionnaires were used for the survey. The results of the study showed that there are fundamental differences in the viewing habits of the respondents of the study. The results of the study proved that there are two factors that make the study sample to watch Turkish series, namely the social factor and the aesthetic factor. In addition, the results of this study showed that there are a number of social influences of these TV series on the study sample. The results of the study also showed that these series play an important role as a soft power instrument in Algeria and have directly served Turkish foreign policy and the economy. Based on the study findings, the researcher, therefore, recommends the Algerian government to copy a leaf from the Turkish soft power policy so that it can have a greater impact on other societies, especially in North Africa. Keywords: Turkish TV Series, Soft Power, Media Effects, Algeria
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The Covid-19 outbreak caused people all around the world to go into isolation and practice social distancing. This practice was also seen in the area of education where distance learning with online classrooms. This has had a massive impact on the students. Especially the international students have had to go through a series of issues starting from the pandemic. Likewise, the internet technology forced upon by Covid-19 for education has had a hit or miss of sorts with students who are either flourishing or being unable to adapt to the change. This research was done to see if poor educational results could stem from individuals' unhappiness with classroom structure and planning.
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This paper describes a Strategic Information Systems Planning (SISP) methodology designed to be appropriate for the organizational requirements of Malaysian Public Institutes of Higher Learning (PIHLs or IPTA in Malay Language). A Ministry of Higher Education was created in June 2004 to enable greater control and coordination over the activities of the 17 PIHLs, including ICT planning and implementation. Until late nineties, SISP formulation was an uncommon activity among Malaysian PIHLs. Thus, a methodology to guide SISP in PIHLs is highly timely. An ISP-IPTA methodology provides a systematic description of the tasks, steps, techniques and tools that can empower the Malaysian PIHLs to produce an SISP document without engaging external consultants. A draft methodology was documented through an analysis synthesis of existing SISP methodologies and assessed by SISP experts based on the criteria of suitability, accuracy, understandability, usability and completeness. The final ISPIPTA methodology document was produced based on their recommendations. A committee comprising ICT directors of all seventeen Malaysian PIHLs is currently using this document to develop an ICT Strategic Plan (ISP) blueprint that will guide ICT implementation in their respective universities.
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