963797
Memory
- Key Concepts
- Information Processing: 5 stages
- Encoding: Putting
the information into
a format that the
brain can
recognise.
- Storage: 'Filing'
away information
so that it can be
used again
- Retrieval: Searching
the memory store for
information we're
trying to use
- Output: Using the
retrieved info, from
having thought to writing
something down
- Input: Sensory information
entering the memory from
the enviroment
- Encoding: Putting
the information into
a format that the
brain can
recognise.
- Accessibility and Availability problems
- Accessibility: The information is
there in the memory, we just cannot
access it there and then. The 'tip of
the tongue' phenomenon.
- Availability: The information isn't stored
anymore, it is 'forgotten'. Believed to
happen if info isn't used enough/isn't
enough space for it.
- Accessibility: The information is
there in the memory, we just cannot
access it there and then. The 'tip of
the tongue' phenomenon.
- Information Processing: 5 stages
- Core Theory: Multi-Store Model
- Memory made up of separate
stores, affected by time and
space (STM and LTM)
- 1) Input needed from environment.
This input is then encoded and enters
the first memory store, sensory
store, which holds all immediate info
only for a few seconds. This info
decays if we do not pay attention.
- 2) If we're conscious of the info it then goes
into Short Term Memory (Sensory to STM is
thought to be only 1% of info). STM has
limited capacity and duration (10-20 secs),
info will then decay (time run out) or be
displaced where new info takes it's place.
Both result in info being lost.
- 3) To keep the info in STM it needs to be
rehearsed for about 30 secs - maintenance
rehearsal. It is then transferred to LTM with
unlimited capacity/duration (STM to LTM
25% info). Although we should now always
have the info, retrieval isn't always possible.
- Capacity of STM: Capacity
of 7±2 'chunks' impossible
for more than 10. A chunk is
a piece of data, or a group
of related data e.g. 1 9 9
8=4 chunks but 1998= a
date, 1 chunk
- 3) To keep the info in STM it needs to be
rehearsed for about 30 secs - maintenance
rehearsal. It is then transferred to LTM with
unlimited capacity/duration (STM to LTM
25% info). Although we should now always
have the info, retrieval isn't always possible.
- 2) If we're conscious of the info it then goes
into Short Term Memory (Sensory to STM is
thought to be only 1% of info). STM has
limited capacity and duration (10-20 secs),
info will then decay (time run out) or be
displaced where new info takes it's place.
Both result in info being lost.
- Displacement is the theory of forgetting,
where info is 'shunted' out by new data.
Decay is another theory of forgetting,
where if info isn't used/rehearsed it gets
decays and is forgotten.
- Criticisms
- Too rigid, ignores
differences: People have
better memories than others
for different types of memory.
- Over-simplifies STM and
LTM: That STM does more
and can take in/hold more
info, also that there are
different types of LTM.
- Over-emphasises rehearsal:
Not all info in LTM was
rehearsed e.g. meaningful
memories/smells
- Too rigid, ignores
differences: People have
better memories than others
for different types of memory.
- Memory made up of separate
stores, affected by time and
space (STM and LTM)
- Alternative Theory: Levels of Processing (LOP)
- We remember things because they're
meaningful or because we associate them with
things that are meaningful. Memory isn't
restricted by time or space, we can remember
large amounts of info as long as it's meaningful.
- Shallow processing:
Coding info on physical
characteristics e.g. a colour
- Deep processing: Coding
info on its meaning
- A study showed that football fans
could recall a large amount of scores
better than non-fans, as they meant
something to them.
- We remember things because they're
meaningful or because we associate them with
things that are meaningful. Memory isn't
restricted by time or space, we can remember
large amounts of info as long as it's meaningful.
- Core Study: Terry (2005)
- Aim: To show that
memory is affected
by time and space
- Procedure: Test memory for 10mth
old TV adverts for different products,
they were no more than 30 secs and
were presented in groups of 15. Had
39 participants, did a repeated
measures design where they were in
both conditions.
- Independent variable: whether they
recalled the adverts immediately or
after a delay (a 3 min written test).
Dependent variable: how many
brand names they could remember.
- Independent variable: whether they
recalled the adverts immediately or
after a delay (a 3 min written test).
Dependent variable: how many
brand names they could remember.
- Results: 'Serial position effect'
recollection dependent on where
the advert was in the list. Primary
effect: The first few adverts were
remembered well (were rehearsed
into LTM). Regency effect: The
last few adverts were remembered
well (still in STM).
- Middle ones were either displaced
by the recent adverts/not enough
time to rehearse them into LTM. In
the delayed condition the regency
effect wasn't shown as the adverts
were no longer in STM. Terry
concluded that position was more
important than meaning of the
adverts - multi-store model.
- Middle ones were either displaced
by the recent adverts/not enough
time to rehearse them into LTM. In
the delayed condition the regency
effect wasn't shown as the adverts
were no longer in STM. Terry
concluded that position was more
important than meaning of the
adverts - multi-store model.
- Limitations
- Lab experiments lack
ecological validity, the
artificial setting doesn't
represent real life.
- Demand characteristics,
the participants realise what
the experiment was about
and wanted to help Terry.
- Experiments lack
construct validity,
memory isn't only
about remembering
adverts.
- Lab experiments lack
ecological validity, the
artificial setting doesn't
represent real life.
- Aim: To show that
memory is affected
by time and space
- Application of research: Memory Aids
- Use of cues: Aid in retrieving
information from memory, e.g. cooking
reminds you of home or retracing
your steps to find something.
- In education: Colour cues to trigger content of
topic, as do mnemonics. Linking cues to info is
proven to work, e.g. wearing the same cologne
that you revise maths for when in a maths test.
- In education: Colour cues to trigger content of
topic, as do mnemonics. Linking cues to info is
proven to work, e.g. wearing the same cologne
that you revise maths for when in a maths test.
- Mind mapping: Helps us remember material as
it's representative of how memory is organised.
- Imagery: Relating written material to an
image gives it more meaning and doubles
the chances of remembering it (image
and text for LTM)
- Use of cues: Aid in retrieving
information from memory, e.g. cooking
reminds you of home or retracing
your steps to find something.
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