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This document discusses key concepts related to research including definitions, types, variables, hypothesis, research design, sampling techniques, and literature review. Some key points: - Research is defined as a systematic, exhaustive, and methodical process of investigation aimed at discovery and interpretation of facts. - The main types of research are basic, applied, quantitative, qualitative, descriptive, experimental, and historical. - Variables can be independent, dependent, or intervening. Hypotheses can be simple or complex, null or alternative, directional or non-directional, associative or causal. - Research design may be experimental, quasi-experimental, or non-experimental. Sampling can use probability or non

Education
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Research NMRN Akinlose Dorcas
Definition • Best (1970) defines it as a formal, systematic and intensive process of carrying out a scientific method of analysis for the purpose of discovery and development of an organized body of knowledge • Too much grammar right? • It is systematic • Diligent • Exhaustive (you can relate right?) • Aim is for discovery (of facts, laws, theories, review, solve issues) • Also to develop the body of knowledge
Nursing Research/purpose • It’s all in the definition. • Systematic investigation of phenomena (events or circumstances) related to improving nursing care, to answer questions, find solution to specific nursing problems and provide better care for patients save time, money and improve skills. • Nursing research helps to develop areas of knowledge that is uniquely nursing (health problem, human behaviours and relationship between health and illness state).
Functions/ purpose of research  diffuse knowledge and expand its horizon  verify or disprove, confirm or reject, or modify and re-assert existing theories  to establish new facts.  find answers to problems and provides new insight regarding their nature.  explore and explain phenomena.  predict phenomena/future circumstances.  control occurrence of phenomena  provide practical clues, to undertake measures that lead to social improvement, social change and social progress.  can be intellectually delighting and mentally satisfying,
Benefits of nursing research • Contribute to the scientific base of nursing practice. • Determine the effectiveness of nursing intervention and nursing care. • make the science of nursing to grow. • Generate the scientific basis or rationale for making changes in nursing practice and patient care. • Influence nursing decision by improving it.
Classes of research (Based on method of data collection • Quantitative • Qualitative • Descriptive • Experimental • Historical • Aesthetic
Types of research Basic: • has goal of discovering knowledge for its own sake. • Designed to solve immediate problem • Done for intellectual pleasure of learning • E.g. knowing why chicken noodles tastes better than beef Applied: Goals of finding solutions to practical everyday problem e.g: Research into why obesity increases with age. The problem is obesity, we want to know why then it increases with age.
Steps in research process • Easy to remember?/ Hard to forget? •Fr.difs.soc.scoaic??? • Let’s find a nice sentence for abbreviation • Father Richard Differentiated Infants From Sons So Others Can Solely Concentrate On Another Info Collection. • Remember the first letter of every word
Research Process 1) Formulating and delimiting the problem 2) Reviewing the related literature 3) Developing a theoretical framework 4) Identifying the research variables – independent/dependent 5) Formulating Hypotheses 6) Selecting a Research Design 7) Specifying the population
8) Operationalizing and measuring the research variables. 9) Conducting the pilot study and making revisions. 10) Selecting the sample 11) Collecting the Data 12) Organizing the Data for analysis 13) Analyzing the Data 14) Interpreting the Results and Drawing Conclusions (Discussion of Findings and Implications. 15) Communicating the Findings/Dissemination of Findings
VARIABLES
Variables • A variable is a characteristic or factor that has values that vary or change • For example, levels of education, intelligence, sex, temperature, or physical endurance. • An attribute that can vary or change….. Remember…change is the only constant thing not variables
Types of variables • Independent: also explanatory or predictors or causal variables. They cause another variable to change. E.g. things we can accept without wondering what made them what they are • Dependent: Outcome or criterion variables. They are forced or caused by other variables. • Intervening: outcome of an event may depend on condition that come in between the dependent and the independent variable. It a link between the two above
Let us try an example • Married people have better mental health than unmarried people. • Independent variable: Marriage • Dependent variable: Mental health • Intervening variable: Maybe married people would have better mental health than single people because lets say due to counselling received during marital preparations. This counselling is a link btw marriage and mental health.
LITERATURE REVIEW
• A literature review is an account of what has been published on a topic by accredited scholars and researchers. • It discusses published information in a particular subject area, and sometimes information in a particular subject area within a certain time period. • L.R can be just a simple summary of the sources, but it usually has an organizational pattern and combines both summary and synthesis.
L.R Cont’d • A summary is a recap of the important information of the source • A synthesis is a re-organization, or a reshuffling, of that information. • It might give a new interpretation of old material or combine new with old interpretations
Organizing L.R can be through: • Chronological: this is when content of the review are arranged as they occur over time, this could either be by publication or by trend. • Thematic: Thematic reviews of literature are organized around a topic or issue, rather than the progression of time. The only difference between a "chronological" and a "thematic" approach is what is emphasized the most. • Methodological: This differs from the two above in that the focusing factor usually does not have to do with the content of the material. Instead, it focuses on the "methods" of the researcher or writer.
Stages in developing a literature review. Selecting the topic Setting the topic in context Looking at information sources Using information sources Getting the information Organizing information (information management) Positioning the literature review Writing the literature review
Sources of Information Books -journals - scholarly, popular - research Papers Theses - world wide web - bibliographies Encyclopaedias -handbooks -Maps newspapers - Government legislation standards Statistics -government documents conference proceedings -
HYPOTHESIS
Definition • A tentative statement that proposes a possible explanation to some phenomenon or event. • An educated guess as to what the outcome will be • e.g. first time mothers who attend child birth classes will demonstrate earlier bonding than mothers who do not attend classes. • A hypothesis should not be confused with a theory. Theories are general explanations based on a large amount of data.
Examples of hypothesis • Chocolate can cause pimples • Getting at least 8 hours sleep can make people healthier • Temperture change may cause butter to become rancid • Note the may, can • We didn’t say categorically that chocolate WILL cause pimples, we only said CAN.
Characteristics of Hypothesis • Testability • Logicality • Relatedness • Unitary • Sets limit on study • Stated in acceptable form
Types of Hypothesis: Simple Vs Complex • Simple hypothesis: predicts relationship between two variables: the independent and dependent variable • E.g: drinking sugary drinks daily leads to being overweight., smoking leads to cancer of the lungs • These things are NOT always true but they are GENERALLY true • Complex Hypothesis: test relationship between two or more IV and 2 or more DV e.g: Individuals who smoke cigarettes, live in industrial cities, family history of cancer have an increased risk of lung cancer It is complex right? Remember!
Null Vs Alternate • Null Hypothesis: (H0): states that no relationship exists beween 2 variables • E.g: there is no significant association with eating surgary foods and obesity • Alternate Hypothesis (H1): it is a claim that opposes Null hypothesis • E.g: There is a significant association between eating surgary foods and obesity
Directional Vs Non-Directional • Directional Hypothesis: It is linear i.e the relationship between variables can also predict the nature • E.g: Engaging in more exercise increases weight loss • Non-Directional Hypothesis: Just states a relationship without predicting the exact nature or direction • E.g: People from Oyo states are better than people from ogun state. • This doesn’t show us how the direction of the relationship; are oyo people beter in reading or are ogun people better in doing parties, we don’t know.
Associative Vs Causal • Associative Hypothesis: Occurs when there is a change in one variable leads to a resulting change in another variable. • E.g: The more you whisk egg, the foamier it becomes • Causal Hypothesis: proposes a cause and effect interaction between two or more variables. • E.g Whisking egg makes it foamy. (cause: whisking; effect: foamy consistency)
Errors in hypothesis • Type 1 Error: rejection of a true null hypothesis • In simple English…….the null hypothesis is actually true i.e there wasn’t a relationship found between variables but the researcher failed to see this. • Type 11 Error: Failure to reject a false null hypothesis • Here….there actually was a relationship found but the researcher was bent on saying that there was no relationship when indeed there was • In simple English again (lol)…Rejecting a true alternate hypothesis
RESEARCH DESIGN
Research Design • The blueprint of the investigation to be conducted is what is referred to as the research design. • The research design indicates the steps that will be taken and in what sequence • Generally, there are several methods that can be adopted for a study, depending on the type of research but each call for a different methodological approach in data collection and analysis.
Types • Experimental design: Researcher manipulates the predictor or independent variable-otherwise called the treatment, program or intervention-and then observes the outcome. • Provides evidence of cause and effect relationship between actions • e.g. Pts who receive pre-operative teaching need less pain medication in the first 72 hours post operatively (Cause: pre-operative teaching Effect: Less pain). • True and Quasi-experimental designs are the two types of experimental designs
• True E.D: • Strongest design for establishing a cause and effect relationship, • Random assignment is used –i.e. all units in the groups involved are considered equal • E.g: randomly assigning people into two groups and exposing them to the same intervention such as counselling to assess their mental health • Quasi E.D: • Employ multiple measures or a control group without randomly assigning participants to group. • The ability of these designs to establish a cause-effect relationship is dependent upon the degree to which the two groups in the study are equivalent. • E.g. exposing a group to counselling while another group is not exposed, then measuring their mental health.
Non experimental design • Do not employ multiple measures • Do not use a control group • Do not use any random assignment in its design. • These are usually employed in descriptive, cross-sectional and correlated studies. • Most of our researches are non-experimental in nature. It is weak in looking for cause and effect unlike experimental design.
SAMPLING & SAMPLING TECHNIQUE
Sampling and sampling design • A sample design is a set of rules or procedure that specifies how a sample is to be selected. • Sampling: the procedure by which a few subjects/cases are chosen or selected for inclusion a in a research study • This allows the researcher to study the subjects/sample in such a way that the sample can be used to estimate the same characteristics in the total population. N.b: Sampling is the procedure of selecting while sample design is how the samples would be selected
Sample • A sample is described as a finite part of a statistical population whose characteristics are studied to gain information about that population. Benefits of sampling • Economical • Timeliness • The large size of many populations • Inaccessibility of some of the population • Accuracy.
Terms in sampling • Population: All members of a specified group : Nursing students • Target Population: The population to which the researcher ideally want to generalize: Nursing students in Nigeria • Accessible Population: The population to which the researcher has access: The researcher lives in Lagos, so Nursing students in Unilag • Sample: A sub-set of a population : Nursing students in clinicals (300-500 level) • Subject: A specific individual participating in a study • Sampling Technique: The specific method used to select a sample from a population
• Representation: The extent to which the sample is representative of the population. • Generalization: The extent to which the result of the study can be reasonably extended from the sample to the population. • Sampling Error: The chance occurrence that a randomly selected sample is not representative of the population due to error involved in the sampling technique. • Random selection error is controlled by selecting larger sample • Non-random selection error is controlled by being aware of sampling bias and avoiding them. E.g surveying only parents who attend out patient clinic.
Characteristics of a Good Sample • Should be true representative of the population. • Selection must be bias-free. • Should make allowance for computation of sampling error. • The result of the sample should be applicable to the population • Types of Samples • Probability sampling techniques, and • Non-Probability sampling techniques.
Probability Sampling Techniques -PST • The sample is selected in such away that each item in the population has a chance of being selected. • This is the type of sampling that is used in lotteries, raffle draws etc • Two things are required to select a Probability Sampling: • (1) Probability sampling requires that a listing of all units in that population. This listing is called the sampling frame. • (2) A random selection procedure must be used to select individuals off the sampling frame to ensure that each unit of the sample is chosen on the basis of chance.
Four types of PST • Simple Random sample: units are selected at random e.g. For example, if you want to select 10 players randomly from a population of 100, you can write their names, fold them up, mix them thoroughly then pick ten. It is like lottery or lucky dip. • Systematic Random Sample: It is obtained by selecting the first unit on a random basis and additional units at evenly spaced intervals until the desired number of units is obtained (i.e. the selection of every ‘nth’ element after a random start from the available population). For example, there are 100 nurses in your hospital. You want a sample of 20 and you have their names listed on a piece of paper. Divide the population by the required sample size (100/20=5). Select any number from 1 to 5 (say no 4 ). From here, you will select every 5th name till you have your 20 nurses.
Stratified Sampling. • It is used where the population consists of subgroups of interest. The population is divided into these subgroups (known as strata) on the sampling frame, and simple random samples are drawn from each of the strata. • Stratified sampling is however only possible when we know what proportion of the study population belongs to each group we are interested in.
Cluster Sampling • Used when the population is large • When other methods are too expensive to use • While simple random & stratified sampling uses single subjects from a population, cluster sampling uses subjects selected in groups or clusters. • This approach allows the researcher to overcome the constraints of cost and time associated with a much dispersed population
Cluster sampling • Let us assume you wanted to conduct interviews with nurse tutors in south western Nigeria about trends in nursing education. • You could decide each school in each of state in SW represents one cluster, and then randomly select a small number e.g. 6. You would then contact the tutors in these 6 schools for interview. • When all tutors in the 6 schools selected are interviewed, this is referred to as “one stage cluster sampling”. • If the subjects to be interviewed are selected randomly within the selected clusters (schools), it is call “two-stage cluster sampling”.
Cluster cont’d • You could also combine cluster sampling with stratified sampling. • For instance, in the above example, you might want to stratify the tutors based on some characteristics relevant to your study , (e.g. education qualification, seniority, e.t.c) and then randomly select tutors from each of these strata. • This type of sampling is referred to as “multi-stage sampling”. • Notice that a multi-stage sampling procedure is carried out in phases and it usually involves more than one sampling method.
Non-probability sampling techniques • Non-probability samples are not selected according to the principle of randomness; they are selected according to some other principles such as convenience or accessibility. • The sample is not statistically chosen and the selection of subjects is or subjective usually based on • limited resources, • Population is difficult to find e.g. gay couples • non-availability of sampling frame, • researcher’s experience, • and judgment.
Problems of NPST • Degree of accuracy to generalize findings on population is impossible to assess • Bias is easily introduced.
Types of NPST • 1) Purposive Sampling: This method of sampling is used in special situations where sampling is done with a specific purpose in mind. E.g professors, sex workers, music artists etc. • Snowballing is a type of purposive sampling which commonly used when it is difficult to identify members of a sample or where the research interest is in an interconnected group of people. • E.g: People who were cultist before, gays/lesbians etc
2) Quota sampling: • This is usually referred to as the most sophisticated of the NPST because it has similar requirement as stratified sampling. • Here, the researcher first has to identify categories (sub groups) that need to be in the sample and the required number (quotas) in these categories. • Selection of individuals on non random basis (e.g. convenience sampling) from each category is then done until the quotas have been reached.
3) Convenience sampling • This method refers to situations when population elements are selected based on the fact that they are easily and conveniently available. • Also called Incidental sampling • When there seems no other choice (no one else available for an interview) researchers may also sample conveniently. • Convenience sampling is usually quick and cheap, but does not result in representative samples. • Remember just as name applies ‘convenient’
Data collection
Types or Sources of Data • Primary sources: original sources from which the researcher directly collects data that have not been previously collected, • e.g., collection of data directly by the researcher • Primary data are first-hand information collected through various methods such as observation, interviewing, mailing • Secondary sources: sources containing data that have been collected and compiled for another purpose. • Secondary sources are readily available • e.g., census reports, annual reports and financial statements of companies, hospital records
Advantages • Secondary data, if available, can be secured quickly and cheaply. • Wider reach . • The use of secondary data broadens the database from which scientific generalizations can be made. • The use of secondary data enables a researcher to verify the findings based on primary data. • Disadvantages/limitations • The most important limitation is the available data may not meet specific research needs. • The available data may not be as accurate as desired. • The secondary data are not up-to-date and become obsolete over time • Information about the whereabouts of sources may not be available
Methods of Data Collection • Observational Methods • This is the basic method of getting information about the world around us. • Observation is not only one of the most pervasive activities of daily life; it is a primary tool of scientific enquiry. • It enables researchers to study behaviour as it occurs. • This in turn enables the researcher to collect data firsthand, thereby preventing contamination • Can be direct (subjects are aware) or indirect (unobtrusive: subjects are not aware).
Demerits of observation Time consuming Requires too much effort Bias on the part of those being observed Past events cannot be directly observed
Questioning • Can be written or oral • Written questions are referred to as the Questionnaire. • Questionnaire could be structured or non-structured, open ended or close ended depending on the type and purpose of the investigation. • Structured easier to analyze than the non-structured which often employ qualitative analysis. • When the questions are posted in verbal forms, it is called Interview.
Merits of questionnaire • (a) Less expensive in terms of money and time; • (b) Greater sense of anonymity by respondents; • (c) Formalized standard for all respondents; • (d) Large sample taken over a large geographical area; • (e) Greater amount of data covering a broad range of topics.
Merits of interview • : (a) Subjects need not be literate; • (b) The rate of response are always higher than the case with questionnaire; • (c) Response can be observed by the interviewer; • (d) Clarification of questions can be provided; • (e) Responses are not premeditated as respondents do not know what other questions will follow; • (f) The face to face can tell the interviewer a lot about the respondent
DATA PROCESSING
DATA PROCESSING, DISCUSSION AND REFERENCING • Compilation – coding of information obtained during data collection. • Organizing the Data – This encompasses sorting, making tally count, frequency table, and so on for easy statistical analysis. • Statistical Analysis – Data analysis usually employs • Descriptive statistics (such as mean and other measures of central tendency, frequency, e.t.c.) and inferential statistical techniques like chi square, correlation coefficient, ANOVA, e.t.c. • It is good to mention here that some software have been developed to ease the burden hitherto associated with data analysis. Example of such packages are the SPSS (Statistical Package for Social Sciences), Epi-info and TextBase Beta. • Evaluation – This involves making inferences based on the result of the data analysis.
Discussion and References • This entails factual and exhaustive discourse of your findings making allusion to what other scholars have done on the subject matter. • In scholarly writing there is however what we call plagiarism or academic fraud. • One can easily fall victim of this detestable crime if one writes without acknowledging those whose ideas one has borrowed. • The truth is, no work is ever complete without proper references.
THANK YOU

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NMRN research notes.pptx

  • 2. Definition • Best (1970) defines it as a formal, systematic and intensive process of carrying out a scientific method of analysis for the purpose of discovery and development of an organized body of knowledge • Too much grammar right? • It is systematic • Diligent • Exhaustive (you can relate right?) • Aim is for discovery (of facts, laws, theories, review, solve issues) • Also to develop the body of knowledge
  • 3. Nursing Research/purpose • It’s all in the definition. • Systematic investigation of phenomena (events or circumstances) related to improving nursing care, to answer questions, find solution to specific nursing problems and provide better care for patients save time, money and improve skills. • Nursing research helps to develop areas of knowledge that is uniquely nursing (health problem, human behaviours and relationship between health and illness state).
  • 4. Functions/ purpose of research  diffuse knowledge and expand its horizon  verify or disprove, confirm or reject, or modify and re-assert existing theories  to establish new facts.  find answers to problems and provides new insight regarding their nature.  explore and explain phenomena.  predict phenomena/future circumstances.  control occurrence of phenomena  provide practical clues, to undertake measures that lead to social improvement, social change and social progress.  can be intellectually delighting and mentally satisfying,
  • 5. Benefits of nursing research • Contribute to the scientific base of nursing practice. • Determine the effectiveness of nursing intervention and nursing care. • make the science of nursing to grow. • Generate the scientific basis or rationale for making changes in nursing practice and patient care. • Influence nursing decision by improving it.
  • 6. Classes of research (Based on method of data collection • Quantitative • Qualitative • Descriptive • Experimental • Historical • Aesthetic
  • 7. Types of research Basic: • has goal of discovering knowledge for its own sake. • Designed to solve immediate problem • Done for intellectual pleasure of learning • E.g. knowing why chicken noodles tastes better than beef Applied: Goals of finding solutions to practical everyday problem e.g: Research into why obesity increases with age. The problem is obesity, we want to know why then it increases with age.
  • 8. Steps in research process • Easy to remember?/ Hard to forget? •Fr.difs.soc.scoaic??? • Let’s find a nice sentence for abbreviation • Father Richard Differentiated Infants From Sons So Others Can Solely Concentrate On Another Info Collection. • Remember the first letter of every word
  • 9. Research Process 1) Formulating and delimiting the problem 2) Reviewing the related literature 3) Developing a theoretical framework 4) Identifying the research variables – independent/dependent 5) Formulating Hypotheses 6) Selecting a Research Design 7) Specifying the population
  • 10. 8) Operationalizing and measuring the research variables. 9) Conducting the pilot study and making revisions. 10) Selecting the sample 11) Collecting the Data 12) Organizing the Data for analysis 13) Analyzing the Data 14) Interpreting the Results and Drawing Conclusions (Discussion of Findings and Implications. 15) Communicating the Findings/Dissemination of Findings
  • 12. Variables • A variable is a characteristic or factor that has values that vary or change • For example, levels of education, intelligence, sex, temperature, or physical endurance. • An attribute that can vary or change….. Remember…change is the only constant thing not variables
  • 13. Types of variables • Independent: also explanatory or predictors or causal variables. They cause another variable to change. E.g. things we can accept without wondering what made them what they are • Dependent: Outcome or criterion variables. They are forced or caused by other variables. • Intervening: outcome of an event may depend on condition that come in between the dependent and the independent variable. It a link between the two above
  • 14. Let us try an example • Married people have better mental health than unmarried people. • Independent variable: Marriage • Dependent variable: Mental health • Intervening variable: Maybe married people would have better mental health than single people because lets say due to counselling received during marital preparations. This counselling is a link btw marriage and mental health.
  • 16. • A literature review is an account of what has been published on a topic by accredited scholars and researchers. • It discusses published information in a particular subject area, and sometimes information in a particular subject area within a certain time period. • L.R can be just a simple summary of the sources, but it usually has an organizational pattern and combines both summary and synthesis.
  • 17. L.R Cont’d • A summary is a recap of the important information of the source • A synthesis is a re-organization, or a reshuffling, of that information. • It might give a new interpretation of old material or combine new with old interpretations
  • 18. Organizing L.R can be through: • Chronological: this is when content of the review are arranged as they occur over time, this could either be by publication or by trend. • Thematic: Thematic reviews of literature are organized around a topic or issue, rather than the progression of time. The only difference between a "chronological" and a "thematic" approach is what is emphasized the most. • Methodological: This differs from the two above in that the focusing factor usually does not have to do with the content of the material. Instead, it focuses on the "methods" of the researcher or writer.
  • 19. Stages in developing a literature review. Selecting the topic Setting the topic in context Looking at information sources Using information sources Getting the information Organizing information (information management) Positioning the literature review Writing the literature review
  • 20. Sources of Information Books -journals - scholarly, popular - research Papers Theses - world wide web - bibliographies Encyclopaedias -handbooks -Maps newspapers - Government legislation standards Statistics -government documents conference proceedings -
  • 22. Definition • A tentative statement that proposes a possible explanation to some phenomenon or event. • An educated guess as to what the outcome will be • e.g. first time mothers who attend child birth classes will demonstrate earlier bonding than mothers who do not attend classes. • A hypothesis should not be confused with a theory. Theories are general explanations based on a large amount of data.
  • 23. Examples of hypothesis • Chocolate can cause pimples • Getting at least 8 hours sleep can make people healthier • Temperture change may cause butter to become rancid • Note the may, can • We didn’t say categorically that chocolate WILL cause pimples, we only said CAN.
  • 24. Characteristics of Hypothesis • Testability • Logicality • Relatedness • Unitary • Sets limit on study • Stated in acceptable form
  • 25. Types of Hypothesis: Simple Vs Complex • Simple hypothesis: predicts relationship between two variables: the independent and dependent variable • E.g: drinking sugary drinks daily leads to being overweight., smoking leads to cancer of the lungs • These things are NOT always true but they are GENERALLY true • Complex Hypothesis: test relationship between two or more IV and 2 or more DV e.g: Individuals who smoke cigarettes, live in industrial cities, family history of cancer have an increased risk of lung cancer It is complex right? Remember!
  • 26. Null Vs Alternate • Null Hypothesis: (H0): states that no relationship exists beween 2 variables • E.g: there is no significant association with eating surgary foods and obesity • Alternate Hypothesis (H1): it is a claim that opposes Null hypothesis • E.g: There is a significant association between eating surgary foods and obesity
  • 27. Directional Vs Non-Directional • Directional Hypothesis: It is linear i.e the relationship between variables can also predict the nature • E.g: Engaging in more exercise increases weight loss • Non-Directional Hypothesis: Just states a relationship without predicting the exact nature or direction • E.g: People from Oyo states are better than people from ogun state. • This doesn’t show us how the direction of the relationship; are oyo people beter in reading or are ogun people better in doing parties, we don’t know.
  • 28. Associative Vs Causal • Associative Hypothesis: Occurs when there is a change in one variable leads to a resulting change in another variable. • E.g: The more you whisk egg, the foamier it becomes • Causal Hypothesis: proposes a cause and effect interaction between two or more variables. • E.g Whisking egg makes it foamy. (cause: whisking; effect: foamy consistency)
  • 29. Errors in hypothesis • Type 1 Error: rejection of a true null hypothesis • In simple English…….the null hypothesis is actually true i.e there wasn’t a relationship found between variables but the researcher failed to see this. • Type 11 Error: Failure to reject a false null hypothesis • Here….there actually was a relationship found but the researcher was bent on saying that there was no relationship when indeed there was • In simple English again (lol)…Rejecting a true alternate hypothesis
  • 31. Research Design • The blueprint of the investigation to be conducted is what is referred to as the research design. • The research design indicates the steps that will be taken and in what sequence • Generally, there are several methods that can be adopted for a study, depending on the type of research but each call for a different methodological approach in data collection and analysis.
  • 32. Types • Experimental design: Researcher manipulates the predictor or independent variable-otherwise called the treatment, program or intervention-and then observes the outcome. • Provides evidence of cause and effect relationship between actions • e.g. Pts who receive pre-operative teaching need less pain medication in the first 72 hours post operatively (Cause: pre-operative teaching Effect: Less pain). • True and Quasi-experimental designs are the two types of experimental designs
  • 33. • True E.D: • Strongest design for establishing a cause and effect relationship, • Random assignment is used –i.e. all units in the groups involved are considered equal • E.g: randomly assigning people into two groups and exposing them to the same intervention such as counselling to assess their mental health • Quasi E.D: • Employ multiple measures or a control group without randomly assigning participants to group. • The ability of these designs to establish a cause-effect relationship is dependent upon the degree to which the two groups in the study are equivalent. • E.g. exposing a group to counselling while another group is not exposed, then measuring their mental health.
  • 34. Non experimental design • Do not employ multiple measures • Do not use a control group • Do not use any random assignment in its design. • These are usually employed in descriptive, cross-sectional and correlated studies. • Most of our researches are non-experimental in nature. It is weak in looking for cause and effect unlike experimental design.
  • 36. Sampling and sampling design • A sample design is a set of rules or procedure that specifies how a sample is to be selected. • Sampling: the procedure by which a few subjects/cases are chosen or selected for inclusion a in a research study • This allows the researcher to study the subjects/sample in such a way that the sample can be used to estimate the same characteristics in the total population. N.b: Sampling is the procedure of selecting while sample design is how the samples would be selected
  • 37. Sample • A sample is described as a finite part of a statistical population whose characteristics are studied to gain information about that population. Benefits of sampling • Economical • Timeliness • The large size of many populations • Inaccessibility of some of the population • Accuracy.
  • 38. Terms in sampling • Population: All members of a specified group : Nursing students • Target Population: The population to which the researcher ideally want to generalize: Nursing students in Nigeria • Accessible Population: The population to which the researcher has access: The researcher lives in Lagos, so Nursing students in Unilag • Sample: A sub-set of a population : Nursing students in clinicals (300-500 level) • Subject: A specific individual participating in a study • Sampling Technique: The specific method used to select a sample from a population
  • 39. • Representation: The extent to which the sample is representative of the population. • Generalization: The extent to which the result of the study can be reasonably extended from the sample to the population. • Sampling Error: The chance occurrence that a randomly selected sample is not representative of the population due to error involved in the sampling technique. • Random selection error is controlled by selecting larger sample • Non-random selection error is controlled by being aware of sampling bias and avoiding them. E.g surveying only parents who attend out patient clinic.
  • 40. Characteristics of a Good Sample • Should be true representative of the population. • Selection must be bias-free. • Should make allowance for computation of sampling error. • The result of the sample should be applicable to the population • Types of Samples • Probability sampling techniques, and • Non-Probability sampling techniques.
  • 41. Probability Sampling Techniques -PST • The sample is selected in such away that each item in the population has a chance of being selected. • This is the type of sampling that is used in lotteries, raffle draws etc • Two things are required to select a Probability Sampling: • (1) Probability sampling requires that a listing of all units in that population. This listing is called the sampling frame. • (2) A random selection procedure must be used to select individuals off the sampling frame to ensure that each unit of the sample is chosen on the basis of chance.
  • 42. Four types of PST • Simple Random sample: units are selected at random e.g. For example, if you want to select 10 players randomly from a population of 100, you can write their names, fold them up, mix them thoroughly then pick ten. It is like lottery or lucky dip. • Systematic Random Sample: It is obtained by selecting the first unit on a random basis and additional units at evenly spaced intervals until the desired number of units is obtained (i.e. the selection of every ‘nth’ element after a random start from the available population). For example, there are 100 nurses in your hospital. You want a sample of 20 and you have their names listed on a piece of paper. Divide the population by the required sample size (100/20=5). Select any number from 1 to 5 (say no 4 ). From here, you will select every 5th name till you have your 20 nurses.
  • 43. Stratified Sampling. • It is used where the population consists of subgroups of interest. The population is divided into these subgroups (known as strata) on the sampling frame, and simple random samples are drawn from each of the strata. • Stratified sampling is however only possible when we know what proportion of the study population belongs to each group we are interested in.
  • 44. Cluster Sampling • Used when the population is large • When other methods are too expensive to use • While simple random & stratified sampling uses single subjects from a population, cluster sampling uses subjects selected in groups or clusters. • This approach allows the researcher to overcome the constraints of cost and time associated with a much dispersed population
  • 45. Cluster sampling • Let us assume you wanted to conduct interviews with nurse tutors in south western Nigeria about trends in nursing education. • You could decide each school in each of state in SW represents one cluster, and then randomly select a small number e.g. 6. You would then contact the tutors in these 6 schools for interview. • When all tutors in the 6 schools selected are interviewed, this is referred to as “one stage cluster sampling”. • If the subjects to be interviewed are selected randomly within the selected clusters (schools), it is call “two-stage cluster sampling”.
  • 46. Cluster cont’d • You could also combine cluster sampling with stratified sampling. • For instance, in the above example, you might want to stratify the tutors based on some characteristics relevant to your study , (e.g. education qualification, seniority, e.t.c) and then randomly select tutors from each of these strata. • This type of sampling is referred to as “multi-stage sampling”. • Notice that a multi-stage sampling procedure is carried out in phases and it usually involves more than one sampling method.
  • 47. Non-probability sampling techniques • Non-probability samples are not selected according to the principle of randomness; they are selected according to some other principles such as convenience or accessibility. • The sample is not statistically chosen and the selection of subjects is or subjective usually based on • limited resources, • Population is difficult to find e.g. gay couples • non-availability of sampling frame, • researcher’s experience, • and judgment.
  • 48. Problems of NPST • Degree of accuracy to generalize findings on population is impossible to assess • Bias is easily introduced.
  • 49. Types of NPST • 1) Purposive Sampling: This method of sampling is used in special situations where sampling is done with a specific purpose in mind. E.g professors, sex workers, music artists etc. • Snowballing is a type of purposive sampling which commonly used when it is difficult to identify members of a sample or where the research interest is in an interconnected group of people. • E.g: People who were cultist before, gays/lesbians etc
  • 50. 2) Quota sampling: • This is usually referred to as the most sophisticated of the NPST because it has similar requirement as stratified sampling. • Here, the researcher first has to identify categories (sub groups) that need to be in the sample and the required number (quotas) in these categories. • Selection of individuals on non random basis (e.g. convenience sampling) from each category is then done until the quotas have been reached.
  • 51. 3) Convenience sampling • This method refers to situations when population elements are selected based on the fact that they are easily and conveniently available. • Also called Incidental sampling • When there seems no other choice (no one else available for an interview) researchers may also sample conveniently. • Convenience sampling is usually quick and cheap, but does not result in representative samples. • Remember just as name applies ‘convenient’
  • 53. Types or Sources of Data • Primary sources: original sources from which the researcher directly collects data that have not been previously collected, • e.g., collection of data directly by the researcher • Primary data are first-hand information collected through various methods such as observation, interviewing, mailing • Secondary sources: sources containing data that have been collected and compiled for another purpose. • Secondary sources are readily available • e.g., census reports, annual reports and financial statements of companies, hospital records
  • 54. Advantages • Secondary data, if available, can be secured quickly and cheaply. • Wider reach . • The use of secondary data broadens the database from which scientific generalizations can be made. • The use of secondary data enables a researcher to verify the findings based on primary data. • Disadvantages/limitations • The most important limitation is the available data may not meet specific research needs. • The available data may not be as accurate as desired. • The secondary data are not up-to-date and become obsolete over time • Information about the whereabouts of sources may not be available
  • 55. Methods of Data Collection • Observational Methods • This is the basic method of getting information about the world around us. • Observation is not only one of the most pervasive activities of daily life; it is a primary tool of scientific enquiry. • It enables researchers to study behaviour as it occurs. • This in turn enables the researcher to collect data firsthand, thereby preventing contamination • Can be direct (subjects are aware) or indirect (unobtrusive: subjects are not aware).
  • 56. Demerits of observation Time consuming Requires too much effort Bias on the part of those being observed Past events cannot be directly observed
  • 57. Questioning • Can be written or oral • Written questions are referred to as the Questionnaire. • Questionnaire could be structured or non-structured, open ended or close ended depending on the type and purpose of the investigation. • Structured easier to analyze than the non-structured which often employ qualitative analysis. • When the questions are posted in verbal forms, it is called Interview.
  • 58. Merits of questionnaire • (a) Less expensive in terms of money and time; • (b) Greater sense of anonymity by respondents; • (c) Formalized standard for all respondents; • (d) Large sample taken over a large geographical area; • (e) Greater amount of data covering a broad range of topics.
  • 59. Merits of interview • : (a) Subjects need not be literate; • (b) The rate of response are always higher than the case with questionnaire; • (c) Response can be observed by the interviewer; • (d) Clarification of questions can be provided; • (e) Responses are not premeditated as respondents do not know what other questions will follow; • (f) The face to face can tell the interviewer a lot about the respondent
  • 61. DATA PROCESSING, DISCUSSION AND REFERENCING • Compilation – coding of information obtained during data collection. • Organizing the Data – This encompasses sorting, making tally count, frequency table, and so on for easy statistical analysis. • Statistical Analysis – Data analysis usually employs • Descriptive statistics (such as mean and other measures of central tendency, frequency, e.t.c.) and inferential statistical techniques like chi square, correlation coefficient, ANOVA, e.t.c. • It is good to mention here that some software have been developed to ease the burden hitherto associated with data analysis. Example of such packages are the SPSS (Statistical Package for Social Sciences), Epi-info and TextBase Beta. • Evaluation – This involves making inferences based on the result of the data analysis.
  • 62. Discussion and References • This entails factual and exhaustive discourse of your findings making allusion to what other scholars have done on the subject matter. • In scholarly writing there is however what we call plagiarism or academic fraud. • One can easily fall victim of this detestable crime if one writes without acknowledging those whose ideas one has borrowed. • The truth is, no work is ever complete without proper references.