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Section 7 Learning and Memory
I Learning
Learning: associative and nonassociative
The acquisition of knowledge or skill;
Associate and nonassociative learning
Nonassociative
No

paired stimulus/response
Habituation - becomes less responsive to
repeated no-harmful stimuli
 Sensitization - becomes more responsive – to
repeated harmful stimulation
Associative
Paired

stimulus/response
Two basic types
– classical conditioning (two stimuli are paired;
when the light shines ----- get food)
– operant conditioning (stimuli and response
are paired; push lever = food
Psychological aspects

Classical conditioning requires that the learning
have predictive value
 Conditioned stimuli (no overt response) and
unconditioned stimuli (gives an overt response)
– not simply timing of events relative to each
other
– blocking phenomena (tone and light experiment)

tone does not add anything so not learned
– we can detect a positive correlation between
two stimuli (efficiency of pairing)
– Extinction can occur over time (unpaired)
Psychological aspects
 Operant
conditioning (trial-and-error
learning)
– A predictive relationship between response and a
stimulus
– behaviors that are rewarded tend to be repeated; those
that cause aversive consequences are not repeated
– timing is important
– must have predictive element
Learning involves forming
memories
II Memory
Memory

Memory is the storage and
retrieval of information
 The three principles of
memory are:
– Storage – occurs in stages
and is continually changing
– Processing – accomplished
by the hippocampus and
surrounding structures
– Memory traces – chemical or
structural changes that
encode memory
1. Stages of Memory

The two stages of memory are short-term memory and
long-term memory
 Short-term memory (STM, or working memory) – a
fleeting memory of the events that continually happen
 STM lasts seconds to hours and is limited to 7 or 8 (not
more than 12 items) pieces of information
 Long-term memory (LTM) has limitless capacity
Basics relationships
Short term - limited capacity and duration (12 items, few minutes)
Long term - more permanent; can be blocked by blocking protein synthesis
Transfer from STM to LTM

Factors that affect transfer of memory from STM
to LTM include:
– Emotional state – we learn best when we are alert,
motivated, and aroused
– Rehearsal – repeating or rehearsing material
enhances memory
– Association – associating new information with old
memories in LTM enhances memory
– Automatic memory – subconscious information
stored in LTM
Declarative (Explicit) or Nondeclarative (Implicit)
Memory
1. Declarative - Explicit
a. Semantic - general knowledge of the world
b. Episodic - knowledge of your own past experiences
2. Nondeclarative or Implicit
- Procedural
- learned skills or habitual responses,
- classical conditioning
Declarative (Fact) memory:
–Entails learning explicit information
–Is related to our conscious thoughts and our language
ability
–Is stored with the context in which it was learned
Nondeclarative (Skill) Memory

Skill memory is less conscious than fact memory
and involves motor activity
 It is acquired through practice
 Skill memories do not retain the context in which
they were learned
Structures Involved in Fact
Memory

Fact memory involves the following brain areas:
– Hippocampus and the amygdala, both limbic system
structures
– Specific areas of
the thalamus and
hypothalamus of
the diencephalon
– Ventromedial
prefrontal cortex
and the basal
forebrain
Figure 15.8a
Major Structures Involved with Skill
Memory

Skills memory involves:
– Corpus striatum – mediates the automatic
connections between a stimulus and a motor
response
– Portion of the
brain receiving
the stimulus
(visual in this
figure)
– Premotor and
motor cortex
Figure 15.8b
3. Mechanisms of Memory

The engram, a hypothetical unit of memory, has
never be elucidated
 Changes that take place during memory include:
– Neuronal RNA content is altered
– Dendritic spines change shape
– Unique extracellular proteins are deposited at
synapses involved in LTM
– Presynaptic terminals increase in number and size,
and release more neurotransmitter
4. FORGETTING
Forgetting as a result of
decay?
Simple passage of
time after learning
has minimal effect on
retention
Forgetting as a result of
interference
Retroactive Interference
Current learning interferes with recall of
previously learned material
Retroactive Interference
Learn
A
Time
Learn
B
Memory
Loss
for A
Proactive Interference
Prior learning interferes
with retention of new
information
Proactive Interference
Learn
A
Time
Learn
B
Memory
Loss
for B
Retrograde and
Anterograde Amnesia
Time
Retrograde
Anterograde
Head Trauma