Unit 3 Topic 3 - Memory Flashcards
Compare sensory, short-term and long-term memory (3.3.1.1)
Sensory: takes sensory stimuli and transfers to the STM (shortest memory storage)
STM: sensory information is considered to be important and is coded in STM (limited capacity of 7 ±2 slots & lasts 12 seconds)
LTM: information is rehearsed and transferred into LTM (unlimited capacity and lasts forever)
Differentiate between iconic memory and echoic memory (3.3.1.1)
Iconic: linked to visual stimuli
Echoic: linked to auditory stimuli
Differentiate between the phonological loop and visuospatial sketchpad components of Baddeley & Hitch’s (1974) Working Memory Model (3.3.1.2)
Phonological Loop – a storage system for auditory information in working memory
Visuospatial Sketchpad – the storage system for visual information in working memory
Explain the purpose of the central executive in Baddeley & Hitch’s (1974) Working Memory Model (3.3.1.2)
functional component responsible for switching attention from task to task, deciding what material is to be retrieved from or committed to long-term memory and performing calculations and making linkages
Explain the purpose of the episodic buffer in Baddeley & Hitch’s (1974) Working Memory Model (3.3.1.2)
theoretical component that acts as bridge and filter (for auditory and visual information) between long term memory and the central executive and storage components
Evaluate the strengths and limitations of Baddeley & Hitch’s (1974) Working Memory Model (3.3.1.2)
STRENGTHS:
Supported by experimental evidence
Brain scans show different areas of the brain are active for verbal and visual information
Explains multi-tasking in situations
LIMITATIONS:
The role of the central executive is unclear
Explains short term memory but not long-term memory
Does not explain memory distortion
Explain the Levels of Processing Model (3.3.1.2)
A model of memory that suggests that memory comprises a continuous dimension which memory is encoded related to the ease with which it can be retrieved: the deeper the processing of information, the greater chance of it being retrieved
Differentiate between shallow and deep processing in the Levels of Processing Model (3.3.1.2)
Shallow Processing – maintenance rehearsal, creates STM retention
Deep Processing – elaborate rehearsal, more meaningful analysis
Evaluate the strengths and limitations of the Levels of Processing Model (3.3.1.2)
STRENGTHS:
Accurately shows encoding is complex
Many studies support the model
Applicable to everyday life
LIMITATIONS:
Does not explain why it works
Concept of depth is vague and cannot be physically observed
It is a model of description not explanation
Differentiate between implicit and explicit memory (3.3.1.3)
Implicit: procedural (how to do things)
Explicit: declarative (facts, data, events)
Differentiate between semantic and episodic memory (3.3.1.3)
Semantic: memory for facts or general knowledge
Episodic: long-term memories of episodes or experiences in your life
Describe the role of the hippocampus in memory formation and storage (3.3.1.4)
Involved in establishing the background or context for each new memory, such as location, situation, and places
Specifically designed to form explicit memories (declarative memory)
Consolidates memories – occurs during ‘less busy’ periods (e.g. sleep)
Short term memory formation requires the hippocampus and cerebral cortex
Long term memory is stored in the hippocampus
Explain the process of forming and storing implicit memories (3.3.1.5)
The cerebellum has a role in the memory of how to perform a motor skill; it works with the motor cortex of the frontal lobes.
Procedural memories are encoded, processed, and stored by the cerebellum
Distinguish between recall, recognition and relearning (3.3.1.6)
Recall – the retrieval of information using minimal cues (least sensitive)
Recognition – correct information identified from set of alternatives (e.g. multiple choice)
Relearning – learning something again that has been committed to memory (most sensitive)
Describe how information is lost from memory through encoding failure (3.3.1.7)
Associations formed at the time of encoding new memories will be the most effective retrieval cues
Pseudo-forgetting and disruption to the consolidation process
Lack of attention, memory thought to be forgotten but never actually encoded