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First year practicals. Lab 7/8: Investigating memory. Introduction. Aims Design your experiment Experience use of t -test Support the memory component of C81COG Objectives Choose research topic (PC-based/paper based) Design, run and analyse Plan your report. Introduction.
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First year practicals Lab 7/8: Investigating memory
Introduction • Aims • Design your experiment • Experience use of t-test • Support the memory component of C81COG • Objectives • Choose research topic (PC-based/paper based) • Design, run and analyse • Plan your report
Introduction Timetable: • Today (22 Feb 2007) • Work in threes: • Design experiment • Prepare stimuli. • Check with demonstrators that design & stimuli look good. • Between practical sessions • Pilot your experiment, • Can you think of any changes to improve? • Try to run all your participants. • At the next practical (8 March 2007) • Part I: Test remainder of participants • Part II: Analysis • Part III: Tips for your report (Submission Date: 15 March, <Noon)
The experimental method • In an experiment, one intervenes possible changes • Implication: the change caused the outcome. Saline Study faces Recognition Test (79 % correct) Scopolamine: Study faces Recognition Test (23 % correct)
Experimental variables • The independent variable (IV) CAUSE • Variable that experimenter manipulates • E.g., activity of the cholinergic system • The dependent variable (DV) EFFECT • Variable that experimenter records • E.g., recognition accuracy
Extraneous Variables & Their Control • Subject variables (“match” Participants) • Gender • age • IQ • Treatment variables (“counterbalance” allocation) • Biased participant allocation – e.g., first 10 participants run in Experimental condition, 2nd 10 run in control condition (maybe time of day DV difference…or poorer motivation in lazy 2nd group…?) • Situational variables (don’t allow to co-vary with IV) • Lighting • Temperature • Different experimenters
Choosing A Design • Between Participants (a.k.a. independent) • Within Participants (a.k.a.Repeated measures) • Matched subjects design
Choosing A Design • Between Participants (independent) • Participants assigned to one group only (either scopolamine or saline) • Match participants to avoid Subject Variables • Randomly assign to avoid Treatment Variables
Choosing A Design • Within Participants (Repeated measures) • Participants tested twice (under scopolamine AND saline) • Participants are already matched! • Counterbalance order (i.e., ½ get saline then scopolamine; the other ½ scopolamine then ½ saline) • Will repeat testing affect results? • Yes – participants may perform better on 2nd test, irrespective of drug. • Solution: use TWO word lists. • But what if one list is just easier than the other? • Solution: Counterbalance the word lists
The Research Area • Three memory principles • Lorayne’s imagery mnemonic (E-Prime) • Tulving’s encoding specificity principle (Paper & pencil) • The role of organisation in memory (Paper & pencil)
Lorayne’s Imagery Technique: Putting Names To Faces • Cohen (1980) believes that names are particularly hard to remember because there is no semantic relation between name and face • Lorayne (1958) suggested that an imagery mnemonic device may help. This has two stages: • Make the name more concrete • Link the concrete version of the name with the persons face • Peter Underwood Peter Underpants
Lorayne’s Imagery Technique: Putting Names To Faces • Devise & test strategy based on Lorayne’s imagery technique • E.G. Group A are shown the twenty faces stored on E-prime. They are instructed in how to use your mnemonic device. They are later shown the faces again and asked to remember the names. • Group B are treated exactly the same but they are not given any advice on how to encode the names. • Alt. hyp? • Subjects that have been told how to use a mnemonic device will remember more names that the control group.
Tulving’s Encoding Specificity Principle • “The probability of successful retrieval of the target is a monotonically increasing function of informational overlap between the information present at retrieval and the information stored in memory.” – Tulving, 1979, p408. • Divers who recalled a list of words underwater, performed better when the words were initially learned under water rather than dry land. When the place/mood/context is consistent in both the encoding and the recall, subjects perform better. –Godden and Baddeley, 1975. • E.G. Would you recognise your dentist at Sainsburys?
Tulving’s Encoding Specificity Principle • What about light levels? Temperature? Inside vs. outside? Loud music vs. silence? • The design should involve two conditions: a consistent context (between learning and retrieval) and an inconsistent context. • E.g. Group A learn a list of words while in a boat on the campus lake. They are later tested again while out on the lake. Group B learn a list of words while in the Buttery and are then taken out in a boat to recall them. • Alt. hyp: the subjects with the consistent context across encoding and recall will recall the most words. • Implications: should you revise in the actual exam room?
Car Wheel Seat Metal Hard Round Spare Shiny Comfort Recline The Role Of Organisation In Memory Which is easiest to learn? List A: List B:
The Role Of Organisation In Memory • Bower et al. (1969) found evidence in favour of list B. • You will replicate the findings of Bower et al. Using your own stimuli. • E.G. Group A is given a list of words in a random order without any structure. Later they are asked to recall those words. • Group B are given the same words in a semantic hierarchy, and are asked to recall them at a later point in time. • Alt. hyp: the group that is given the overt structure will remember more words than the control group. • Implications: should your revision notes be structured hierarchically?
Assessment Criteria • The markers will be looking specifically for: • Evidence of wide reading – there are a lot of primary sources available (ISI Web of Science) • Design – have you controlled for all extraneous variables? Those you haven’t you should mention in your discussion (e.g.. Word frequency, word length etc.) • Results – Table/graph (not both) Description of results Discussion – implications for other theories & real world • Appendices – Stimulus examples; SPSS print out AND t-test workings by hand, raw data.