PSY 322 Exam 2 Flashcards
Memory:
Memory: processes involved in retaining, retrieving, and using information about stimuli, images, events, ideas, and skills after the original information is no longer present. Active any time some past experience has an impact on how you think or behave now or in the future.
Basics of memory: encoding, storage, retrieval
Encoding is the receiving and interpretation of information, acquiring information and transforming it into memory - fancy way of saying memorize
Storage refers to the storing of information
Retrieval is the process used to recall stored information, transferring information from LTM to working memory
Sensory memory:
Short-term memory:
Long-term memory:
Control processes:
- Rehearsal:
- Strategies used to make a stimulus more memorable: like mnemonic devices to help memories things easier
- Strategies of attention that help you focus on specific stimuli:
Besides this it is passive and you have bins the three models and then draw from it when needed
Sensory memory: the initial stage that holds all incoming information for seconds or fractions of a second
Short-term memory: holds five to seven items for about 15 to 20 seconds.
Long-term memory: can hold a large amount of information for years or even decades
Control processes: active processes that can be controlled by the person
- Rehearsal: trying to remember a phone number for ordering pizza so repeating the number for active memory
- Strategies used to make a stimulus more memorable: like mnemonic devices to help memories things easier
- Strategies of attention that help you focus on specific stimuli: ways to put attention where you need to help you remember it
Baddeley’s Working Memory Model: Central Executive, Visuospatial Sketchpad, Phonological Loop, Episodic Buffer
Central Executive: Acts as the attention controller and controls suppression of irrelevant information - Focus, divide, switch attention
Visuospatial Sketchpad: Creation of visual images in the mind in the absence of a physical visual stimulus, Memorize sentence and then consider each word (mentally) and Response is either
- Phonological: say “yes” if it is a noun and “no” if it is not
- Visuospatial: point to Y if word is a noun and N if word is not
Phonological Loop: Conducting two verbal tasks overloaded (reading and listening to music at the same time) and temporary hold verbal information
- Phonological similarity effect → Letters or words that sound similar are confused
- Word length effect - easier to remember shorter words like cat then like rutabaga
Episodic Buffer: Backup store that communicates with long-term and working memory components, Hold information longer and has greater capacity than phonological loop or visuospatial sketch pad
- Not everything is verbal or spatial there’s other stuff like feelings and senses that you don’t have words or pics attached to and will hold info a little longer
Working memory:
Activity state:
Synaptic state:
Working memory differs from short-term memory (STM):
Working memory: Limited-capacity system for temporary storage and manipulation of information for complex tasks such as comprehension, learning, and reasoning (activate takes while short is passive) - set up to process different types of information simultaneously - Prefrontal cortex responsible for processing incoming visual and auditory information
Activity state: information to be remembered causes neurons to fire
Synaptic state: neuron firing stops, but connections between neurons are strengthened
Working memory differs from short-term memory (STM):
STM holds information for a brief period of time
WM is concerned with the storage, processing and manipulation of information, and is active during complex cognition
Sensory memory: What is known about capacity and duration (and how we know it!)
Sensory memory: retention, for brief periods of time, of the effects of sensory stimulation, information decays very quickly so low capacity
Persistence of vision: retention of the perception of light → Trail of light from a moving sparkler - evidence of sensory memory and doesn’t last that long and it will disappear
Measuring the capacity and duration of sensory memory (Sperling, 1960)
Array of letters flashed quickly on a screen and participants asked to report as many as possible
Whole report method: participants asked to report as many as could be seen average of 4.5 out of 12 letters (37.5%)
Partial report method: participants heard tone that told them which row of letters to report average of 3.3 out of 4 letters (82%)
Delayed partial report method: presentation of tone delayed for a fraction of a second after the letters were extinguished, performance decreases rapidly
Results of Sperling’s (1960) partial report experiments. The decrease in performance is due to the rapid decay of iconic memory (sensory memory in the modal model).
(Visual sensory memory also called) Iconic memory: brief sensory memory of the things that we see
Short-term memory: What is known about capacity and duration (and how we know it!)
Short-Term Memory: Stores small amounts of information for a brief duration and includes both new information received from the sensory stores and information recalled from long-term memory
Measuring duration of short-term memory: Read three letters, then a three-digit number (xjf 678) and then participants start counting back until they get to those
Reduction in performance explained by decay, the vanishing of a memory trace due to the passage of time and exposure to competing stimuli - people did worse bc of decay so by time passing things fall out but also competing info
Capacity of short-term memory: Digit span - how many digits a person can remember
Stretching short term capacity is chunking - Chunking: small units can be combined into larger meaningful units
Anterograde amnesia:
Retrograde amnesia:
Graded amnesia:
Anterograde amnesia: A person cannot remember new information but can remember events from before the onset of amnesia, can’t make new memories in the future - every 30 secs keep rebooting only have short term memory
Retrograde amnesia: A person can remember new information but cannot remember events from before the onset of amnesia, loss of memory for events prior to the trauma - worse to those close in time to when the injury occurred and further back in time memory is more intact
Graded amnesia: memory for recent events is more fragile than for remote events
Dissociations between STM and LTM (this is how we know they’re separate systems!)
STM depends upon intact corticostriatal systems, whereas LTM depends upon intact medial temporal lobe systems.
H.M.: what type of amnesia he had and why
surgery removed hippocampus
Retained short-term memory (STM) but unable to transfer info to long-term memory (LTM)
Unable to form new LTMs
Short term memory okay but long term memory impaired
anterograde amnesia
Clive Wearing: what types of amnesia he had and why
Suffers from anterograde amnesia and retrograde amnesia due to a bout with viral encephalitis in his 40s. This means that he remembers very little from his past and cannot make new memories either.
Short term memory okay but long term memory impaired
Dissociations between episodic and semantic LTM
Episodic memory involves mental time travel (memory for personal experience)
Tied to personal experience; remembering is reliving or “self-knowing”
Semantic memory does not involve mental time travel (memory for facts)
General knowledge, facts like “Knowing”
Separation of Episodic and Semantic Memories: fMRI demonstrates that retrieving episodic(right prefrontal) and semantic(left) memories activate different areas of the brain
Episodic and Semantic Memory Interaction:
Episodic can be lost, leaving only semantic (Acquiring knowledge may start as episodic but then “fade” to semantic)
Semantic can be enhanced if associated with episodic
Autobiographical memory: specific experiences, includes semantic and episodic
Personal semantic memory: semantic memories that have personal significance
Long-term memory: What is known about capacity and duration (and how we know it!)
Long-Term Memory: “Archive” of information about past events and knowledge learned, works closely with working memory, storage stretches from a few moments ago to as far back as one can remember, more recent memories are more detailed
The serial position curve: primacy (LTM) and recency (STM) effect, best memory for items at beginning and end of the list
Distinction between short-term and long-term memories using the serial position curve
Notice that memory is better for words presented at the beginning of the list (primacy effect) and at the end (recency effect).
Primacy effect gave more time to rehearse information, more likely to enter long-term memory (LTM)
Recency effect: Stimuli in STM
Coding in Short-Term Memory:
Coding in Long-Term Memory:
Coding in Short-Term Memory: placing words in categories based on meaning
Visual - holding an image in your mind that you recently saw
Auditory - representing the sound of letters in mind just after hearing them
Coding in Long-Term Memory: recalling generally plot of a novel you read last week
Recognition memory: identification of a previously encountered stimulus
Visual - visualizing museum you were at last summer
Auditory - repeating song heard many times before
KF > accident damaged parietal lobe
Impaired STM (reduced digit span) but functional LTM
Able to form and hold new memories
Types of LTM: Explicit vs. Implicit
Explicit: conscious → episodic is personal events and semantic is facts
Implicit: unconscious → procedural, primiming, conditioning
Procedural: Skill memory: memory for actions, perform procedures without being consciously aware of how to do them, people who cannot form new LTMs can still learn new skills (e.g., HM)
Primiming: Presentation of priming stimulus changes person’s response to a test stimulus
- Repetition priming: Test stimulus the same or similar to priming stimulus
Called implicit memory; person may or may not remember original presentation of priming stimuli
Conditioning: Pairing a neutral stimulus with a reflexive response, involves implicit memory when person has forgotten about original pairing of the stimulus and the response
Encoding: Maintenance Rehearsal vs. Elaborative Rehearsal
Maintenance rehearsal
Repetition of stimuli that maintains information but does not transfer it to LTM
When you repeat things to yourself over and over again but it doesn’t necessarily go to long term because there is more effective things you can do to help with that - repeat phone number
Elaborative rehearsal
Using meanings and connections to help transfers information to LTM
Having a song or acronym to remember it more effectively
Levels of processing in memory (you should know all about Craik and Tulving’s experiment)
Memory depends on how information is encoded - how did you when you first encounter what time of work did you do first when you met the memory meaning that better memory like deep could make it easier in the future to remember
Depth of processing
Shallow processing: little attention to meaning, focus on physical features, poor memory
Deep processing: close attention to meaning, better memory
(a) Sequence of events in Craik and Tulving’s (1975) experiment. (b) Results of this experiment. Deeper processing (fill-in-the-blanks question) is associated with better memory - participants sit down and showed a screen and then shown a word and then asked a question about the word and did not tell participant to memorize word, first question was the word in all caps, second conduction does this word rhyme with blank, third condition was does this word fit in this sentence so if the word was bird they would say does bird fit into the sentence do birds sit in nests, between the three conditions: fill in blanks at 80%, decrease to 50% with rhyme, and at capital letters like 10%. This is because it just takes looking at words to see if it’s all caps, no extra word required, for rhyming you don’t really need to think about it that much, filling in blanks takes more work therefore that amount makes them remember it more. So how much work are you putting up front will help you later, when retrieval comes more likely to remember.
Factors that aid encoding (imagery, self-reference, generation, etc)
Visual imagery - could help remember word pairs such as boat-tree and they could either just repeat the worlds or make an imagery in their mind of a boat and a tree and when test time came it was easier to remember the paired associative memory when using imagery.
Self-reference effect - best memory for filling in the blank meaning helps, what could make it even better is saying does that word connect to you and then pairing it to yourself will help you remember.
Generation effect
Organizing to-be-remembered information - Bransford & Johnson
Relating words to survival value
Retrieval practice: practice questions or test yourself from the book is example of this bc the act of testing yourself improves memory
