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Using the scientific method Observational Methods

Using the scientific method Observational Methods. Psych 231: Research Methods in Psychology. Remember Monday is Labor Day, no classes that day ReggieNet Quizzes They are all posted for the semester. It is your responsibility to be aware of the due dates.

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Using the scientific method Observational Methods

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  1. Using the scientific methodObservational Methods Psych 231: Research Methods in Psychology

  2. Remember Monday is Labor Day, no classes that day • ReggieNet Quizzes • They are all posted for the semester. It is your responsibility to be aware of the due dates. • Quiz 2 (chapters 2&3) is Due Tonightat midnight, Aug. 27 • This week’s labs - Library Labs: • Milner rooms 213C (for the psycINFO lecture) • Next week’s labs: • Download and read the Assefi & Garry (2003) article before labs Announcements

  3. Claim:People perform best with a good night of sleep. • Sleep walking story (2) • Sleep and high school (2) • Science of sleep • To begin to answer the claim we’ve got to FOCUS the idea • Break the general idea down into smaller more specific ideas • Develop theories as to how & why • EVALUATE the idea (e.g., the ROT test) • TEST the idea: using research methods to test parts of the theories (hypotheses) Conducting Research: An example

  4. Claim:People perform best with a good night of sleep. • Focusing the idea • What do we mean by “perform best”? • Academic performance? • Physical performance? • What do we mean by “good night sleep”? • 8 hrs?, Uninterrupted?, 2 hours of REM? • What is the underlying theory? What hypotheses do we test? • e.g., Consolidation of memories happen during REM sleep, so getting more REM sleep should lead to better recall Operational definitions Conducting Research: An example

  5. Claim:People perform best with a good night of sleep. • Evaluating the idea (ROT) • Can we replicate the research, do we get similar results? • Answer may depend on how you choose to make your observations (your research methods) • How do we observe performance? How do we observe good sleep? • Recall tests, recognition tests, “brain waves,” ,,, • Are our predictions testable? Conducting Research: An example

  6. Claim:People perform best with a good night of sleep. • How might we go about trying to test this claim? • What are the things (variables) of interest? • What is the hypothesized relationship between these variables? • How should we test it? • How do we observe the behavior? • What research design should we use, what are our goals? Conducting Research: An example

  7. Observational approaches: Data collection • How do we observe the behaviors of interest? • Types of research designs • What kinds of research questions are you investigating? • E.g., Cause and effect? Descriptive? Conducting Research

  8. Observational approaches: Data collection • How do we observe the behaviors of interest? • Naturalistic observation • Participant observation • Survey & interviews • Archival data • Systematic (contrived) observation • Experiments Direct Observation Observation without manipulation Observational Methods

  9. Naturalistic Observation: Observation and description of behaviors within a natural setting • High external validity • Good for behaviors that don’t occur (as well) in more controlled settings • Often a first step in the research project • Can be difficult to do well • Hard not to influence things (reactivity effect) • Takes a long time • Need multiple observers to agree Jane Goodall Dian Fossey Observational Methods

  10. Participant Observation: The researcher engages in the same behaviors as those being observed • May allow observation of behaviors not normally accessible to outside observation • Internal perspective from direct participation • But could lead to loss of objectivity • Potential for contamination by observer http://www.sil.org/~headlandt/students.htm Observational Methods

  11. Survey methods: Questionnaires and interviews that ask people to provide information about themselves • Widely used methodology • Best way to collect some kinds of information: • Descriptive, behavioral, and preferential • e.g., demographic information, recreational behavior, and attitudes • Large amounts of data can be collected quickly with relatively little cost (effort, time, etc.) • But they’re often not as “cheap” as you may think • Done correctly, can be a very difficult method Observational Methods

  12. Archival data: Rather than making direct observations, researcher examines existing public or private records • If the appropriate existing records can be found, no need for data collection • Data set may be more extensive than what you could collect yourself • However, you are limited to the data that exists, may be no way to collect follow-up data • Data may be of observations that you cannot (ethically) collect or manipulate • E.g., murder rates, who marries whom, etc. • Word of caution: be aware of how and where the data were collected Observational Methods

  13. Advantages • Complex patterns of behavior in particular settings • Useful when little is known about the subject of study • May learn about something that never would have thought of looking at experimentally • Disadvantages • Causality is a problem • Threats to internal validity because of lack of control • Every confound is a threat • Lots of alternative explanations • Directionality of the relationship isn’t known • Sometimes the results are not reproducible Observation without manipulation Observational Methods

  14. Systematic (Contrived Observation): The observer sets up the situation that is observed • Observations of one or more specific variables made in a precisely defined setting • Much less global than naturalistic observations • Often takes less time • However, since it isn’t a natural setting, the behavior may be changed Observational Methods

  15. Case studies • Intensive study of a small set of individuals and their behaviors • Correlational • Looking for a co-occurrence relationship between two (or more) variables • Quasi-experimental • Experimental designs with one or more non-random variables • Experimental • Investigating the cause-and-effect relationship between two (or more) variables through the manipulation of variables Types of research designs

  16. This view has some disadvantages • There may be poor generalizabilty • There are typically a number of possible confounds and alternative explanations • Intensive study of a single person, a very traditional method. Typically: • Descriptive (and non-experimental). • Interesting (and often rare) case. Fits well with clinical work. • Phineas Gage(Sci. Am. Show) • Sept 13, 1848 Explosion propelled a railroad tamping rod through his brain • Changed personality Case Histories See: Oliver Sacks’ books for some other great examples interview

  17. Measure two (or more) variables for each individual and see if the variables co-occur (suggesting that they are related) • Used for: • Predictions • Establishing Reliabilityand Validity • Evaluating theories • Limitation: Shouldn’t make casual claims Y X ? or or Correlational Methods

  18. We’d like to say: • To be able to do this: • There must be co-variation between the two variables • The causal variable must come first • Directionality problem • Happy people sleep well • Or is it that sleeping well when you are happy? • Need to eliminate plausible alternative explanations • Third variable problem Y X causes X Y X Y or • Do Storks bring babies? • Neyman (1952) reported a strong positive correlation between number of babies and stork sightings Causal claims

  19. Source: Kronmal (1993) r = 0.63 • Do Storks bring babies? • Neyman (1952) reported a strong positive correlation between number of babies and stork sightings Causal claims

  20. Is killing storks and effective method of controlling birth rates? Theory 1: Storks deliver babies

  21. Theory 2: Underlying third variable

  22. Manipulating and controlling variables in laboratory experiments • Must have a comparison • At least two groups (often more) that get compared • One groups serves as a control for the other group • Variables • Independent variable - the variable that is manipulated • Allows for the testing of causal hypotheses • Dependent variable - the variable that is measured • Control variables - held constant for all participants in the experiment The experimental method

  23. Advantages • Precise control possible • Precise measurement possible • Theory testing possible • Can make causal claims • Manipulating and controlling variables in laboratory experiments • Disadvantages • Artificial situations may restrict generalization to “real world” • Complex behaviors may be difficult to measure The experimental method

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