SEARCH
You are in browse mode. You must login to use MEMORY

   Log in to start

Memory AQA psychology


🇬🇧
In English
Created:


Public
Created by:
Nirupama Rajesh


0 / 5  (0 ratings)



» To start learning, click login

1 / 25

[Front]


Coding
[Back]


way in which information is changed and stored in memory

Practice Known Questions

Stay up to date with your due questions

Complete 5 questions to enable practice

Exams

Exam: Test your skills

Test your skills in exam mode

Learn New Questions

Dynamic Modes

SmartIntelligent mix of all modes
CustomUse settings to weight dynamic modes

Manual Mode [BETA]

Select your own question and answer types
Specific modes

Learn with flashcards
Complete the sentence
Listening & SpellingSpelling: Type what you hear
multiple choiceMultiple choice mode
SpeakingAnswer with voice
Speaking & ListeningPractice pronunciation
TypingTyping only mode

Memory AQA psychology - Leaderboard

0 users have completed this course. Be the first!

No users have played this course yet, be the first


Memory AQA psychology - Details

Levels:

Questions:

55 questions
🇬🇧🇬🇧
Coding
Way in which information is changed and stored in memory
Duration
Length of time that information is held in memory store
Capacity
Amount of information that can be stored
Multistore model origin
Proposed by Atkinson and Shiffrin and was one of the earliest model of memory. Based on belief that we process memory the same way computers do
Components of msm
Sensory register -> short term memory -> long term memory
Sensory register storage
- storage of brief sensory events like sound, scent and taste - duration is very limited around 250 ms - capacity is very large, unknown exact number
Jacobs research on capacity of stm
- jacobs said there is a limit to what can be stored in stm - 5 to 9 pieces of info - chunking information can make it easier to remember - digits are easier to remember than words
Jacobs research on capacity of stm
- jacobs said there is a limit to what can be stored in stm - 5 to 9 pieces of info - chunking information can make it easier to remember - digits are easier to remember than words
Jacobs research on capacity of stm
- jacobs said there is a limit to what can be stored in stm - 5 to 9 pieces of info - chunking information can make it easier to remember - digits are easier to remember than words
Jacobs research on capacity of stm
- jacobs said there is a limit to what can be stored in stm - 5 to 9 pieces of info - chunking information can make it easier to remember - digits are easier to remember than words
Jacobs research on capacity of stm
- jacobs said there is a limit to what can be stored in stm - 5 to 9 pieces of info - chunking information can make it easier to remember - digits are easier to remember than words
Jacobs research on capacity of stm
- jacobs said there is a limit to what can be stored in stm - 5 to 9 pieces of info - chunking information can make it easier to remember - digits are easier to remember than words
Jacobs research on capacity of stm
- jacobs said there is a limit to what can be stored in stm - 5 to 9 pieces of info - chunking information can make it easier to remember - digits are easier to remember than words
Jacobs research on capacity of stm
- jacobs said there is a limit to what can be stored in stm - 5 to 9 pieces of info - chunking information can make it easier to remember - digits are easier to remember than words
Jacobs research on capacity of stm
- jacobs said there is a limit to what can be stored in stm - 5 to 9 pieces of info - chunking information can make it easier to remember - digits are easier to remember than words
Short term memory
- temporary storage system that processes incoming sensory memory - duration is limited, around 20 seconds (research by peterson and peterson) - coding is acoustin (Baddely) - capacity : limited 7+/- 2 chunks of information (miller)
Miller (1956) research into STM
STM has limited capacity of 7+/-2 chunks of info. EVAL POINT Miller’s research did not take age into account when considering what could affect STM. Also we don't know how big of a chunk of info we can store in STM
Peterson & Peterson (1959) research into duration of stm
STM has a limited duration of 20 seconds. EVAL POINT ppts were psychology students who may have demonstrated demand characteristics. Low ecological validity, as the experiment does not reflect real situations. Highly controlled.
Baddely (1966) into coding of STM
Found that STM (direct recall) : acoustically similar. LTM (20 mins later) : semantically similar. EVAL POINT Good sample size. Controlled experiment. Low ecological validity.
LTM
Capacity : unlimited duration : lifetime (bahrick) coding : semantic (baddley)
Explicit memory
Those we consciously try to remember and recall eg episodic and semantic memory
Implicit memory
Memories that arent part of our consciousness. memories formed from behaviour eg procedural memory
Procedural memory
Stores information on how we do things, like riding a bicycle. no conscious recall
Semantic memory
Knowledge is stored in semantic memory
Episodic memory
Events we have personally experienced
SUPPORT for MSM
HM suffered from epilepsy. He damages his hippocampus, he had amnesia. Procedural memory was still intact but he couldnt form new episodic or semantic memories. His STM and LTM weren't connected. This supports MSM's theory that the STM and LTM are located in different places.
LIMITATION of MSM
- machine reductionism -
Peterson and Peterson
- 24 psych students participated - participants had to try and recall three letter consants after different intervals - ppts would recall fewer trigrams as time gap increased - STM has limited 20s duration when we cant rehearse information
Bahrick et Al
- tested long term memory of nearly 400 ppts - tested at different years after graduation - name recognition maintained the highest accuracy
Jacobs research on capacity of stm
- jacobs said there is a limit to what can be stored in stm - 5 to 9 pieces of info - chunking information can make it easier to remember - digits are easier to remember than words
Baddeley research into STM and LTM coding
- ppts were given four sets of words - stm is acoustically coded - ltm is semantically coded
Working memory model
Proposed by Baddeley and Hitch (1974), proposes a multi component model of short-term memory. consisting of - central executive - phonological loop - visuo spatial sketchpad - episodic buffer
Central executive
- attentional system - proccesses all sensory information and directs information to appropriate component - has limited unknown capacity - little is known about the CE
Phonological loop
Deals with auditory information and consists of the phonological store and articulatory process - phonological store, stores the words you hear - articulatory process allows for maintenance rehearsal
Visual spatial sketchpad
Stores visual and spatial information helps people to navigate around and interact with their physical environment. - visual cache, stores visual data - inner scribe - records arrangement of objects - Baddeley says it has a limited capacity
Episodic buffer
- temporary store for information, intergrating visual, spatial and verbal information processed by other stores and maintaining a sense of time sequencing. the episodic buffer links WM to LTM
SUPPORT for WMM
- case study support from KF - KF had poor STM for auditory information but could process visual information normally - by the WMM, this suggests KF's phonological loop was damaged but his visuo-spatial sketchpad was intact. SUPPORTS existence of separate visual and acoustic memory stores.
LIMITATION of WMM
- lack of clarity over nature of central executive. not a lot of research done on it - so it is considered an unsatisfactory component and this challenges the integrity of WMM
Why do we forget? LTM
- accessibility : information that was once stored is difficult to retrieve - interference : memory is inaccessible because of old or new information blocking interval
Why do we forget? STM
- lack of availability, because STM has small capacity. information is pushed out
Interference
- forgetting because one memory blocks another, causing one or both memories to be distorted or forgotten
Proactive interference
- forgetting occurs when OLDER memories, already stored, disrupt the recall of NEWER memories
Retroactive interference
Forgetting occurs when NEWER memories disrupt the recall of older memories already stored.
Research on effects of similarity
MCGEOCH AND MCDONALD - studied retractive interference by changing the amount of similarity between two sets of materials. - when ppt were asked to recall the original list of words, most similar material produced worst recall. - interference is strongest when the memories are similar
LIMITATION of interference
- interference is temporary and can be overcome by using cues - tulving gave ppts lists of words, interference got worse as more words were given - but when cues were given, recall rose again.
Retrieval Failure
Form of forgetting when we do not have necessary cues to access information. Memory is still available, just not accessible till the needed cue is provided.
Cue
A trigger of information that allows us to access a memory. Cues can be direct(meaningful) or indirectly linked by being encoded at time of learning.
Encoding Specificity Principle
- present at encoding - present at retrieval
Context Dependent Forgetting
Recall depends on external cue like weather or place
State Dependent Forgetting
Recall depending on internal cue (feeling happy or drunk or high)
Research on context dependent forgetting
Godden and Baddeley 4 conditions - deep divers - had to memorize a list on land or sea and recall underwater or on land. Results - accurate recall was 40% lower in non matching conditions. Conclusion - if external cues given while learning were not also present during recall, lead to retrieval failure.
Research on state dependent forgetting
Carter and Cassaday Gave antihistamines drugs to patients, made them drowsy - Four conditions - had to learn list of words and passage Results - mismatch between internal states lead to accuracy recall rates to be significantly worse.
STRENGTH of retrieval failure
- Real world application : can help to overcome forgetting in everyday situations. Even if it is not a drastic impact on forgetting it still matters. Next time we’re in a room and we forget what we went there for, we can remember to go and look for cues. Interference theory gives us real life strategies to tackle forgetting.
LIMITATION
- Recall VS Recognition : Godden and Baddley redid their experiment and asked their participants to recognize rather than recall. Results suggested that context dependent forgetting had no effect on recognizing. Retrieval failure only affects some forms of the memory being tested.
Anxiety has positive effect
Yuille and Cutshall Ppts witnessed actual shooting in a gun shop, owner shot down thief. Interviewed 4-5 months after the incident, asked to rate anxiety levels in a 7 point scale, and any aftereffects they felt, compared this to police interviews. Findings - Witnesses were very accurate with their details and there was very little change. Ppts with highest stress levels were most accurate - 88% compared to the less stressed group
Misleading Information
Incorrect information given to eyewitness usually after the event, many forms such as leading questions and post event discussion
Research on leading questions
Loftus and Palmer Procedure - 45 ppts, watched a video of car accidents. Then they asked a critical question(leading), ppts were asked “How fast were the cars when they ___ each other” and used different verbs of different severity. contacted, hit, bumped, collided, smashed Results - The softer word contacted resulted in a slower speed than smashed, the leading question biased the eyewitness
Research on post event discussion
Gabbert et al Procedure - studied ppts in pairs, each ppt watched the same video of the same crime but from different points of view. Then the ppts discussed what they had just seen individually. Results - 71% of ppts mistakenly recalled aspects of events that they did not see but picked up from discussion. Evidence of memory conformity.
EVALUATION of misleading information as factor effecting eyewitness testimony
- Real life application - important practical uses in police/justice. Shows that psychologists can play a big part in the legal system and improve accuracy of convictions/avoid misconvictions. - Lacks mundane realism - ppts in both experiments simply watched a video, this does not reflect real life scenarios. Research ppts are less motivated to be right as it is only an experiment not an important police investigation
Anxiety
State of emotional and physical arousal, normal reaction to stressful situations but can decrease accuracy of eyewitness testimony
Anxiety has negative effect (Weapon Focus)
Johnson and Scott Procedure - Ppts believed they were taking part in a lab study Results - In low anxiety conditions, 49% of them could recognize the correct man. High anxiety condition, only 33%. Ppts practiced tunnel theory where they could only focus on the bloody knife, this is why it's called weapon focus.
Anxiety has positive effect
Yuille and Cutshall Ppts witnessed actual shooting in a gun shop, owner shot down thief. Interviewed 4-5 months after the incident, asked to rate anxiety levels in a 7 point scale, and any aftereffects they felt, compared this to police interviews. Findings - Witnesses were very accurate with their details and there was very little change. Ppts with highest stress levels were most accurate - 88% compared to the less stressed group