Memory

Question 1

Memory

Answer 1

The storage system in the brain that holds information about stimuli, events, images etc. after the original stimuli are no longer present.

Question 2

Primacy effect

Answer 2

An individual’s tendency to remember the first piece of information they encounter due to it being processed and put in a long term memory.

Question 3

Recency effect

Answer 3

Information that came last is remembered more clearly than those that came first. This information is held in a short term memory.

Question 4

The multi-store model of memory

Answer 4

Information - sensory register - attention -rehearsal - short term memory - rehearsal - long term memory - retrieval

Question 5

Capacity

Answer 5

The amount of information that can be stored in the memory store.

Question 6

Duration

Answer 6

The length of time that information can be held in the memory store.

Question 7

Coding

Answer 7

The way in which information is represented in the memory store.

Question 8

Short term memory (STM)

Answer 8

Capacity: 7+/-2 items
Duration: 18-30 seconds (without rehearsal)
Coding: acoustic (by sound)

Question 9

Long term memory (LTM)

Answer 9

Capacity: unlimited
Duration: up to a lifetime
Coding: semantic (by meaning)

Question 10

Sensory register

Answer 10

Capacity: very large
Duration: milli seconds
Coding: all senses

Question 11

Sperling - Duration of the sensory register

Answer 11

• Flashed grids of letters then played a high, medium or low tone.
• Letters flashed for 1/20th of a second
• Participant had to report the top, middle or bottom row depending on the sound they heard
• They could only do this if the tone was within 1/3 of a second (very short duration)

Question 12

Miller - Capacity of short term memory

Answer 12

• Digit span test
• Participants had to recall increasingly longer strings of digits
• Most people get 5-9 digits correct

Question 13

Peterson + Peterson - Duration of short term memory

Answer 13

• Trigrams to learn
• Participants had to learn these trigrams and then recall back after counting backwards
• After 3 seconds 80% recalled
• After 18 seconds 10% recalled
• Artificial stimuli means study lacked ecological validity

Question 14

Bahrick - Duration of long term memory

Answer 14

• Yearbook test
• 392 graduates were shown photos from their high school yearbook
• 60% could accurately match names to faces 47 years later
• High external validity because it investigated meaningful memories so would reflect a more ‘real’ estimate of LTM duration

Question 15

Baddeley - Coding of STM and LTM

Answer 15

• Participants had to learn words that sounded the same (e.g bee, knee) or words that meant the same (e.g loud, noisy)
• Participants made mistakes on the sound words when STM was tested and meaning words when LTM was tested
• A strength is that it identified a clear difference between the two memory stores
• A limitation is that the findings could have limited application as word lists are artificial stimuli

Question 16

Episodic memory

Answer 16

LTM store for personal events, including where, when, people, places. Must be consciously retrieved and it is time stamped.

Question 17

Semantic memory

Answer 17

LTM store for knowledge of the world. Facts, concepts and meanings. Not time stamped and must be consciously retrieved.

Question 18

Procedural memory

Answer 18

LTM store for knowledge of how to do things, including learned skills. Recalled without conscious effort and not time stamped.

Question 19

Case study: HM

Answer 19

• HM had brain surgery to relieve his epilepsy
• The surgeons removed his hippocampus without realising that this would permanently damage HM’s LTM
• His episodic and semantic but not his procedural

Question 20

Case study: Clive Wearing

Answer 20

• Episodic memory damaged
• Still had some semantic knowledge (e.g. that he is married to his wife)
• kept most of his procedural memories
• worst case of amnesia

Question 21

Working memory model

Answer 21

Focuses on short term memory. It is the explanation of the memory used when working on a task. Concerned with the “mental space” active when we are temporarily storing and manipulating information.

Question 22

Stores in working memory

Answer 22

Central executive, phonological loop, visuo spatial sketchpad and episodic buffer.

Question 23

Central executive

Answer 23

Monitors and coordinates all other mental functions in working memory. Controls attention and determines which sub-systems take on different tasks.
- Supervisory role
- Monitors incoming data
- Does not store information
- Limited processing capacity

Question 24

Phonological loop

Answer 24

Codes speech sounds in working memory, typically involving maintenance rehearsal.
Phonological store: stores words you hear
Articulatory process: maintenance rehearsal and capacity is 2 seconds worth of what you can say

Question 25

Visuo - spatial sketchpad

Answer 25

• Has a capacity of 3-4 items (limited capacity)
• Temporary store for visual and spatial information
• Visual cache stores visual information
• Inner scribe records arrangement of objects in the visual field

Question 26

Episodic buffer

Answer 26

Receives input from many sources, temporarily stores this information and then integrates it in order to construct a mental episode of what is being experienced. Send information to LTM and maintains a sense of time sequencing.
- Added by Baddeley in 2000
- Limited capacity of about 4 chunks

Question 27

Dual task studies

Answer 27

Doing two things at once.
Examples:
- Tracking a moving light while problem solving (different stores used)
- Saying a random number whilst solving problems (hard to do as both require CE)

Question 28

Evidence to support the WMM

Answer 28

• A psychologist (in 1993) used a PET scan to record brain activity when participants were performing verbal tasks (using phonological loop) or visual tasks (using the visuo-spatial sketchpad) and found that very different areas of the brain were active during each task.
• KF case study supports the existence of separate visual and acoustic memory stores
• Dual task studies

Question 29

Limitation of the WMM

Answer 29

We don’t know a lot about the central executive. It is hard to research because we cannot isolate it in the same way as the other stores.

Question 30

Interference

Answer 30

One memory disrupts the ability to recall another memory.

Question 31

Proactive interference

Answer 31

Older memories from previous learning disrupt the recall of newer memories.

Question 32

Retroactive interference

Answer 32

Newer memories disrupt the recall of previously stored memories.

Question 33

What are the effects of similarity in interference?

Answer 33

In both proactive and retroactive interference, the interference is worse when the memories are similar.

Question 34

Retrieval failure

Answer 34

Information is in LTM but cannot be accessed. It cannot be accessed because the retrieval cues are not present.

Question 35

Encoding specificity

Answer 35

Memory is most effective when information available at coding is also present during retrieval . This information acts as cues that trigger our memories. We forget in the absence of these cues.

Question 36

External cues

Answer 36

In the environment e.g. location or smells

Question 37

Internal cues

Answer 37

Inside of us e.g. emotional state

Question 38

Abernathy

Answer 38

• Students tested 4 different ways with different surroundings and 2 different teachers
• Students familiar with surroundings learned best
• The cue was the surroundings

Question 39

Godden and Baddeley

Answer 39

• Lists of words learnt on land and underwater
• If learnt underwater, recalled better underwater
• Context-dependent forgetting

Question 40

Carter and Cassaday

Answer 40

• Participants given anti-histamine
• Learnt words drowsy or alert
• If learnt drowsy recalled better drowsy
• Internal cues
• State-dependent forgetting

Question 41

Goodwin

Answer 41

• Asked people to learn lists of words drunk or sober
• if they learnt the words drunk then they were more likely to remember them drunk.

Question 42

Eyewitness testimony

Answer 42

The evidence given in a court or in police investigations by someone who has witnessed a crime or accident.

Question 43

Schemas

Answer 43

Allow us to make sense of what we encounter so we can predict what is going to happen and what we should do.

Question 44

Reconstructive memory

Answer 44

When people don’t remember events exactly, they remember fragments and then fill in the gaps using common sense and personal experiences

Question 45

Leading question

Answer 45

A question that, either by its form or content, suggests to the witness what answer is desired or leads him or her to the desired answer.

Question 46

Misleading information

Answer 46

Supplying information that may lead a witness’ memory of a crime to be altered.

Question 47

Post-event discussion

Answer 47

A conversation between co witnesses or an interviewer and an eyewitness after a crime has taken place which may contaminate a witness’ memory for the event.

Question 48

Source monitoring theory

Answer 48

When you integrate information from others into your own memories and forget whether the information was from someone else or your own memory. You don’t know the source of the information.

Question 49

Conformity theory

Answer 49

People may go along with others for social approval or just think that the other person is a better witness.

Question 50

Loftus and Palmer (Experiment 1)

Answer 50

• Participants shown a film of a car crash
• They were then asked a series of questions including “How fast do you think the cars were going when they were hit?”
• The word hit was replaced by smashed, collided, bumped or contacted.
• Participants given the word smashed estimated the highest speed estimate (average of 41mph) and the word contacted gave the lowest estimate (average of 32mph)

Question 51

Loftus and Zanni

Answer 51

• A study into leading questions
• Participants shown a film of a car crashed and asked ‘Did you see the broken headlight?’ Or ‘Did you see a broken headlight?’
• 17% of those asked with ‘the’ claimed they saw one but only 7% of those asked with ‘a’ did.
• A lab study so lacks ecological validity

Question 52

Yuille and Cutshall

Answer 52

• Study of a shooting that occurred outside a gun shop in Canada
• Asked 2 leading questions using the a/the technique
• Leading questions had little effect in recall

Question 53

Christianson and Hubinette

Answer 53

• Conducted interviews of bystanders and victims of a bank robbery 4-15 months after the event
• Witnesses who were most anxious (victims) had the best recall
• Suggests anxiety does not reduce accuracy of recall

Question 54

Drawbacks to Loftus’ experiments

Answer 54

• Lab experiment so lacked ecological validity
• Participants were her students so they may have realised what the experiment was about and changed their behaviour accordingly

Question 55

Gabbert

Answer 55

• Investigated post-event discussion on the accuracy of eyewitness testimony
• 60 students and 60 older adults
• Watched a video of a girl stealing money from a wallet
• Tested individually (control group) or in pairs (co-witness group)
• Participants in co-witness group watched different perspectives but told they watched the same video
• After completing a questionnaire, 71% of witnesses in the co-witness group recalled information they had not seen

Question 56

Effect of anxiety on eyewitness testimony

Answer 56

• Christianson and Hubinette bank robbery study - people with most anxiety (the victims) showed more accurate recall.
• In real life, the more anxiety the better the recall
• In lab studies, the more anxiety, the less accurate the memory

Question 57

What type of memory does the WMM represent?

Answer 57

Short term memory

Question 58

Cognitive interview (CI)

Answer 58

A method of interviewing eyewitnesses and victims about what they remember from a crime scene. It has 4 techniques and aims to improve eyewitness testimony.

Question 59

The four techniques used in cognitive interviews

Answer 59

Context reinstatement (CR)
Report everything (RE)
Change perspective (CP)
Reverse order (RO)

Question 60

Context reinstatement

Answer 60

• Recall the scene, weather, what you were thinking and feeling (the context surrounding the event no the event itself)
• Links to retrieval failure
• Can act as cues for remembering information and enhances recall

Question 61

Report everything

Answer 61

• Report very detail you can even if they seem irrelevant or trivial
• Small details can be crucial and they can act as triggers for other memories (retrieval cues)
• Witnesses might not realise that some details are important and details might help them recall significant information

Question 62

Change perspective

Answer 62

• Describe the event as it would have been seen from different viewpoints
• Encourages many different retrieval paths

Question 63

Reverse order

Answer 63

• Describe the event in reverse order
• This stops people telling the event as a story and filling in gaps using their schemas

Question 64

Limitation of the cognitive interview

Answer 64

• Costs government money
• Training takes time
• It is a lengthy process

Question 65

Independent groups

Answer 65

Split your participants into 2 separate groups and each group does one condition.

Question 66

Repeated measures

Answer 66

All participants do both conditions.

Question 67

Baddeley and Hitch (1977)

Answer 67

• Interference
• Rugby players recalling the names of the teams they had played against over a rugby season
• the players who played the most games forgot proportionately more because of interference than those players who played less games
• Demonstrates the effect of interference on daily life

Question 68

Benton Underwood (1957)

Answer 68

• Proactive interference
• Analysed the findings from a number of studies
• Concluded that when participants have to learn a series of word lists, they do not learn the lists of words encountered later on in the sequence as well as lists of words encountered earlier on.
• If participants memorised 10 or more lists then after 24 hours they remembered about 20% of what they learned. If they only learned one list recall was over 70%

Question 69

Muller and Pilzeder (1900)

Answer 69

• Retroactive interference
• Gave participants a list of nonsense syllables to learn for 6 minutes and then after a retention interval (shown 3 landscape paintings and asked to describe them) asked them to recall the lists.
• Performance was worse if the participants had been given an intervening task between initial learning and recall

Question 70

Evaluation for interference

Answer 70

• Research is quite artificial and doesn’t replicate real life. lots of supporting evidence but most of it is lab-based which may not relate to everyday uses of memory.
• Interference only occurs when 2 memories are similar. Interference effects do not occur in everyday life but not that often
• Researchers have questioned whether interference effects are temporary or if a memory is actually lost.
• Evidence that some people are less affected by PI than others. Kane and Engle - ppts with low working memory spans showed greater proactive interference.1

Question 71

Context-dependent forgetting

Answer 71

Recall depends on external cue e.g. weather or place

Question 72

State-dependent forgetting

Answer 72

Recall depends on internal cue e.g. feeling upset or being drunk

Question 73

Strengths of retrieval failure

Answer 73

• Retrieval cues can help to overcome some forgetting in everyday situations so it has real-world applications (research can remind us of strategies we use in the real world to improve our recall)
• Supported by research - Godden and Baddeley and Carter and Cassaday. Retrieval failure occurs in real-world and lab situations

Question 74

Weaknesses of retrieval failure

Answer 74

• Baddeley argues that context effects are not very strong in everyday life and contexts have to be very different in order to see an effect. Therefore retrieval failure due to lack of contextual cues may not actually explain much everyday forgetting
• Context effects may depend on the type of memory being tested. Godden and Baddeley replicated their underwater experiment with a recognition test instead a retrieval test and performance was the same in all 4 conditions. So maybe it only applies when recalling information yourself.

Question 75

Dual task studies - Evaluation of WMM

Answer 75

• Baddeley (1975) asked participants to carry out a visual and verbal task at the same time their performance on each was similar to when they carried out the tasks separately
• When both tasks were visual (or both verbal) performance on both tasks declined substantially as the same store was being used.
• This suggests there must be separate systems for verbal and visual information
• However dual task studies are unlike the tasks we perform in everyday life.

Question 76

Case study for WMM: KF

Answer 76

• Case study carried out by Tim Shallice and Elizabeth Warrington
• KF had poor STM ability for auditory information but could process visual information normally
• This suggests there are separate stores for visual and verbal memory
  BUT…
• It is unclear whether KF had other cognitive impairments which may have affected his performance on memory tasks - the trauma of his accident may have impacted his cognitive performance

Question 77

Nature of the Central Executive - Limitation of WMM

Answer 77

• Baddeley said “the central executive is the most important but least understood component of working memory”
• Some psychologists believe that the central executive may consist of separate sub-components
• This means that the central executive is an unsatisfactory component and this challenges the integrity of the WMM.

Question 78

Korsakoff’s syndrome

Answer 78

• Chronic alcoholics sometimes develop Korsakoff’s syndrome, which causes brain damage.
• However, it has little effect on STM, but severely impairs LTM. This suggests that STM and LTM are stored in different areas of the brain. This provides further evidence to support the multistore model of memory.

Question 79

Loftus (1979) Method

Answer 79

• Two conditions were created in this independent design study.
• In both conditions, participants heard a discussion in a room nearby.
  Group 1: participants witnessed a man come out of the room with his hands covered in grease and holding a pen.
  Group 2: participants witnessed a man come out of the room carrying a knife covered in blood.
• Participants were then asked to identify the man from 50 photographs.
• The participants were unaware that this was staged

Question 80

Loftus (1979) Results

Answer 80

• The participants in Group 1 (pen/grease) had 49% accuracy in identifying the man.
• In Group 2 (knife covered in blood), the participants only had a 33% accuracy rate in identification.

Question 81

Loftus (1979) Conclusion

Answer 81

• When witnesses were more anxious, they tended to focus on the weapon rather than the criminal.
• Overall, Group 2 participants were more likely to focus on the weapon itself, rather than other details of the crime scene (such as the man).
• So when witnessing violent crimes, witnesses tend to focus on central details and ignore other details.
• High levels of anxiety caused Group 2 to be less accurate in identifying the man

Question 82

Loftus (1979) Evaluation

Answer 82

• Because the participants were unaware that the scenario was staged, the study has high ecological validity.
• But there are ethical issues because of the potential trauma of witnessing a man carrying a knife covered in blood.
• Psychological participants have a right to be informed and debriefed of the nature of the deception of the study

Question 83

Strengths of Gabbert (2004) post-event discussion

Answer 83

• Reliable – easy to replicate.
• Practical applications – demonstrates unreliability of eyewitness testimony.

Question 84

Limitations of Gabbert (2004) post event discussion

Answer 84

• Lacks ecological validity – the participants were aware it was not a real crime.
• Demand characteristics.
• Social desirability.

Question 85

Strengths of MSM

Answer 85

Supported by research e.g. Baddeley’s coding study which supports that claim from the MSM that the STM and LTM are separate stores

Question 86

Limitations for the MSM

Answer 86

• Research studies the memory of numbers and words which reduces the validity of the models as research does not represent the more meaningful memories we form in everyday life
• KF case study - could process visual information but could not process verbal information which suggests there are separate STM stores
• Prolonged rehearsal is not needed for transfer to LTM, elaborative rehearsal is needed for long term storage which suggests that the MSM does not fully explain how long-term storage is achieved