IELTS Practice Tests Plus 3
Test 1 Passage 3
You should spend about 20 minutes
on Questions 27-40, which are based on Reading Passage 3 below.
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THE
CREATION OF LASTING MEMORIES
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Many studies of the brain
processes underlying the creation of memory consolidation (lasting memories)
have involved giving various human and animal subjects treatment, while
training them to perform a task. These have contributed greatly to our
understanding.
in pioneering studies using
goldfish, Bernard Agranoff found that protein synthesis inhibitors* injected
after training caused the goldfish to forget what they had learned. In other
experiments, he administered protein synthesis inhibitors immediately before
the fish were trained. The remarkable finding was that the fish learned the
task completely normally, but forgot it within a few hours – that is, the
protein synthesis inhibitors blocked memory consolidation, but did not influence
short-term memory.
There is now extensive evidence
that short-term memory is spared by many kinds of treatments including
electro-convulsive therapy (ECT), that block memory consolidation. On the
other hand, and equally importantly, neuroscientist Ivan Izquierdo found that
many drug treatments can block short-term memory without blacking memory
consolidation. Contrary to the hypothesis put forward by Canadian
psychologist Donald Hebb, in 1949, long-term memory does not require
short-term memory, and vice versa.
such findings suggest that our
experiences create parallel, and possibly independent stages of memory, each
with a different life span. All of this evidence from clinical and
experimental studies strongly indicates that the brain handles recent and
remote memory in different ways; but why does it do that?
We obviously need to have memory
that is created rapidly: reacting to an ever and rapidly changing environment
requires that. For example, most current building codes require that the
heights of all steps, up or down, we implicitly remember the heights of the
steps and assume that the others will be the same. If they are not the same,
we are very likely to trip and fall. Lack of this kind of rapidly created
implicit memory would be bad for us and for insurance companies but perhaps
good for lawyers. It would be of little value to us if we remembered the
heights of the steps only after a delay of many hours, when the memory
becomes consolidated.
The hypothesis that lasting
memory consolidates slowly over time is supported primarily by clinical and
experimental evidence that the formation of long-term memory is influenced by
treatments and disorders affecting brain functioning. There are also other
kinds of evidence indicating more directly that the memories consolidate over
time after learning. Avi Kami and Dov Sagi reported that the performance of
human subjects trained in a visual skill did not improve until eight hours
after the training was completed, and that improvement was even greater the
following day. Furthermore, the skill was retained for several years.
Studies using human brain imaging
to study changes in neural activity induced by learning have also reported that
the changes continue to develop for hours after learning. In an innovative
study using functional imaging of the brain, Reza Shadmehr and Henry Holcomb
examined brain activity in several brain regions shortly after human subjects
were trained in a motor learning task requiring arm and hand movements. They found
that while the performance of the subjects remained stable for several hours
after completion of the training. Their brain activity did not; different
regions of the brain were predominantly active at different times over a
period of several hours after the training. The activity shifted from the
prefrontal cortex to two areas known to be involved in controlling movements,
the motor cortex and cerebellar cortex. Consolidation of the motor skill
appeared to involve activation of different neural systems that increased the
stability of the brain processes underlying the skill.
There is also evidence that
learning-induced changes in the activity of neurons in the cerebral cortex
continue to increase for many days after the training. In an extensive series
of studies using rats with electrodes implanted in the auditory cortex,
Norman Weinberger reported that, after a tone of specific frequency was
paired a few times with footshock, neurons in the rats’ auditory cortex
responded more to that specific tone and less to other tones of other frequencies.
Even more interestingly, the selectivity of the neurons’ response to the
specific tone used in training continued to increase for several days after
the training was terminated.
It is not intuitively obvious why
our lasting memories consolidate slowly. Certainly, one can wonder why we
have a form of memory that we have to rely on for many hours, days or a
lifetime, that is so susceptible to disruption shortly after it is initiated.
Perhaps the brain system that consolidates long-term memory over time was a
late development in vertebrate evolution. Moreover, maybe we consolidate
memories slowly because our mammalian brains are large and enormously complex.
We can readily reject these ideas. All species of animals studied to date
have both short and long-term memory; and all are susceptible to retrograde
amnesia. Like humans, birds, bees and molluscs, as well as fish and rats,
make long-term memory slowly. Consolidation of memory clearly emerged early in
evolution, and was conserved.
Although there seems to be no
compelling reason to conclude that a biological system such as a brain could
not quickly make a lasting memory, the fact is that animal brains do not. Thus,
memory consolidation must serve some very important adaptive function or
functions. There is considerable evidence suggesting that the slow
consolidation is adaptive because it enables neurobiological processes occurring
shortly after learning to influence the strength of memory for experiences. The
extensive evidence that memory can be enhanced, as well as impaired, by treatments
administered shortly after training, provides intriguing support for this
hypothesis.
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Questions
27-40
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Questions 27-31
Choose the correct letter A,B,C, or
D.
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27
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Experiments
by Bernard Agranoff described in Reading Passage 3 involved
A.
injecting goldfish at different stages of the
experiments
B.
training goldfish to do different types of
task
C.
using different types of treatment on
goldfish
D.
comparing the performance of different
goldfish on certain tasks
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28
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Most findings from recent studies
suggest that
A.
drug treatments do not normally affect short
term memories
B.
long-term memories build upon short-term
memories
C.
short and long-term memories are formed by
separate processes
D.
ECT treatment affects both short- and
long-term memories
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29
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In the
fifth paragraph, what does the writer want to show by the example of
staircases?
A.
Prompt memory formation underlies the
performance of everyday tasks.
B.
Routine tasks can be carried out
unconsciously.
C.
Physical accidents can impair the function of
memory.
D.
Complex information such as regulations
cannot be retained by the memory.
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30
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Observations about memory by kami
and sagi
A.
cast doubt on existing hypotheses
B.
related only to short-term memory
C.
were based on tasks involving hearing
D.
confirmed other experimental findings
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31
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What did
the experiment by Shadmehr and Holcomb show?
A.
Different areas of the brain were activated
by different tasks.
B.
Activity in the brain gradually moved from
one area to other areas.
C.
Subjects continued to get better at a task
after training had finished.
D.
Treatment given to subjects improved their
performance on a task
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Question 32-36
Do the following statements agree
with the views of the writer in Reading Passage 3
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Write
YES
NO
NOT GIVEN
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if the
statement agrees with the views of the writer
if the
statement contradicts the views of the writer
if it is
impossible to say what the writer thinks about this
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32
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The training which Kami and Sagi’s
subjects were given was repeated over several days.
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33
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The rats
in Weinberger’s studies learned to associate a certain sound with a specific
experience.
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34
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The results of Weiberger’s
studies indicated that the strength of the rats’ learned associations
increases with time
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35
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It is
easy to see the evolutionary advantage of the way lasting memories in humans
are created.
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36
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Long-term memories in humans are
more stable than in many other species
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Questions 37-40
Complete the summary using the
list of words, A-I
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Long-term memory
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Various researchers have examined
the way lasting memories are formed. Laboratory experiments usually involve
teaching subjects to do something 37 …………. , and treating them with mild
electric shocks or drugs. Other studies monitor behaviour after a learning
experience, or use sophisticated equipment to observe brain activity.
The results are generally
consistent; they show that lasting memories are the result of a 38 …………. and
complex biological process.
The fact that humans share this
trait with other species, including animals with 39 …………. Brains, suggests
that it developed 40 …………. In our evolutionary history.
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A
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early
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B
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easy
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C
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large
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D
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late
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E
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lengthy
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F
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new
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G
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recently
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H
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small
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I
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quick
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ANSWER KEY
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27
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A
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28
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C
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29
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A
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30
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D
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31
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B
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32
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NG
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33
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Y
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34
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Y
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35
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N
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36
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NG
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37
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F
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38
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E
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39
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H
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40
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A
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