Music And The Emotions - IELTS Reading Answers & Explanations
From Cambridge IELTS 12 Academic Reading Test 3 · Part 3 · Questions 27–40
Reading Passage
Music and the emotions
Neuroscientist Jonah Lehrer considers the emotional power of music
Why does music make us feel? One the one hand, music is a purely abstract art form, devoid of language or explicit ideas. And yet, even though music says little, it still manages to touch us deeply. When listening to our favourite songs, our body betrays all the symptoms of emotional arousal. The pupils in our eyes dilate, our pulse and blood pressure rise, the electrical conductance of our skin is lowered, and the cerebellum, a brain region associated with bodily movement, becomes strangely active. Blood is even re-directed to the muscles in our legs. In other words, sound stirs us at our biological roots.
A recent paper in Nature Neuroscience by a research team in Montreal, Canada, marks an important step in revealing the precise underpinnings of the potent pleasurable stimulus’ that is music. Although the study involves plenty of fancy technology, including functional magnetic resonance imaging (fMRI) and ligand-based positron emission tomography (PET) scanning, the experiment itself was rather straightforward. After screening 217 individuals who responded to advertisements requesting people who experience ‘chills’ to instrumental music, the scientists narrowed down the subject pool to ten. They then asked the subjects to bring in their playlist of favourite songs – virtually every genre was represented, from techno to tango – and played them the music while their brain activity was monitored. Because the scientists were combining methodologies (PET and fMRI), they were able to obtain an impressively exact and detailed portrait of music in the brain. The first thing they discovered is that music triggers the production of dopamine – a chemical with a key role in setting people’s moods – by the neurons (nerve cells) in both the dorsal and ventral regions of the brain. As these two regions have long been linked with the experience of pleasure, this finding isn’t particularly surprising.
What is rather more significant is the finding that the dopamine neurons in the caudate – a region of the brain involved in learning stimulus-response associations, and in anticipating food and other ‘reward’ stimuli – were at their most active around 15 seconds before the participants’ favourite moments in the music. The researchers call this the ‘anticipatory phase’ and argue that the purpose of this activity is to help us predict the arrival of our favourite part. The question, of course, is what all these dopamine neurons are up to. Why are they so active in the period preceding the acoustic climax? After all, we typically associate surges of dopamine with pleasure, with the processing of actual rewards. And yet, this cluster of cells is most active when the ‘chills’ have yet to arrive, when the melodic pattern is still unresolved.
One way to answer the question is to look at the music and not the neurons. While music can often seem (at least to the outsider) like a labyrinth of intricate patterns, it turns out that the most important part of every song or symphony is when the patterns break down, when the sound becomes unpredictable. If the music is too obvious, it is annoyingly boring, like an alarm clock. Numerous studies, after all, have demonstrated that dopamine neurons quickly adapt to predictable rewards. If we know what’s going to happen next, then we don’t get excited. This is why composers often introduce a key note in the beginning of a song, spend most of the rest of the piece in the studious avoidance of the pattern, and then finally repeat it only at the end. The longer we are denied the pattern we expect, the greater the emotional release when the pattern returns, safe and sound.
To demonstrate this psychological principle, the musicologist Leonard Meyer, in his classic book Emotion and Meaning in Music (1956), analysed the 5th movement of Beethoven’s String Quartet in C-sharp minor, Op. 131. Meyer wanted to show how music is defined by its flirtation with – but not submission to – our expectations of order. Meyer dissected 50 measures (bars) of the masterpiece, showing how Beethoven begins with the clear statement of a rhythmic and harmonic pattern and then, in an ingenious tonal dance, carefully holds off repeating it. What Beethoven does instead is suggest variations of the pattern. He wants to preserve an element of uncertainty in his music, making our brains beg for the one chord he refuses to give us. Beethoven saves that chord for the end.
According to Meyer, it is the suspenseful tension of music, arising out of our unfulfilled expectations, that is the source of the music’s feeling. While earlier theories of music focused on the way a sound can refer to the real world of images and experiences – its ‘connotative’ meaning – Meyer argued that the emotions we find in music come from the unfolding events of the music itself. This ‘embodied meaning’ arises from the patterns the symphony invokes and then ignores. It is this uncertainty that triggers the surge of dopamine in the caudate, as we struggle to figure out what will happen next. We can predict some of the notes, but we can’t predict them all, and that is what keeps us listening, waiting expectantly for our reward, for the pattern to be completed.
Questions
Questions 27–31 Summary Completion
Complete the summary below.
Choose NO MORE THAN TWO WORDS from the passage for each answer.
Write your answers in boxes on your answer sheet.
The Montreal Study
Participants, who were recruited for the study through advertisements, had their brain activity monitored while listening to their favourite music. It was noted that the music stimulated the brain’s neurons to release a substance called 27 in two of the parts of the brain which are associated with feeling 28.
Researchers also observed that the neurons in the area of the brain called the 29 were particularly active just before the participants’ favourite moments in the music – the period known as the 30. Activity in this part of the brain is associated with the expectation of ‘reward’ stimuli such as 31.
Questions 32–36 Multiple Choice (One Answer)
Choose the correct letter, A, B, C or D.
Write the correct letter in boxes on your answer sheet.
Questions 37–40 Matching Sentence Endings
Complete each sentence with the correct ending, A-F, below.
Write the correct letter, A-F, in boxes on your answer sheet.
A our response to music depends on our initial emotional state.
B neuron activity decreases if outcomes become predictable.
C emotive music can bring to mind actual pictures and events.
D experiences in our past can influence our emotional reaction to music.
E emotive music delays giving listeners what they expect to hear.
F neuron activity increases prior to key points in a musical piece.
Answers & Explanations Summary
| # | Answer | Evidence | Explanation |
|---|---|---|---|
| Q27 | dopamine | music triggers the production of dopamine – a chemical with a key role in setting people’s moods – by the neurons (nerve cells) in both the dorsal and ventral regions of the brain | Excerpt/Passage Explanation: The passage explains that when people listen to music they like, their brain makes a chemical called dopamine. This chemical helps to improve their mood and is produced by special cells in two parts of the brain. Answer Explanation: The answer 'dopamine' is the name of the chemical that the brain produces when we enjoy music. Reason For Correctness: The correct answer is 'dopamine' because the passage specifically states that music triggers the production of dopamine in the brain, which is related to feeling good. |
| Q28 | pleasure | these two regions have long been linked with the experience of pleasure | Excerpt/Passage Explanation: The passage talks about how listening to favorite music stimulates the brain to release a substance in parts of the brain related to feeling a certain way. Answer Explanation: The answer, 'pleasure,' refers to the positive feeling or enjoyment that the brain experiences in those specific parts. Reason For Correctness: The correct answer is 'pleasure' because the excerpt mentions that the brain regions activated by the music are associated with the experience of pleasure, indicating that listening to favorite music triggers a sense of enjoyment or satisfaction in the brain. |
| Q29 | caudate | the dopamine neurons in the caudate – a region of the brain involved in learning stimulus-response associations, and in anticipating food and other ‘reward’ stimuli – were at their most active | Excerpt/Passage Explanation: The passage talks about a part of the brain called the caudate that is very active just before people's favorite moments in music. Answer Explanation: The answer 'caudate' refers to a specific area in the brain that is involved in learning and expecting rewards, such as in this case: favorite moments in music. Reason For Correctness: The correct answer is 'caudate' because it is the specific brain region mentioned in the passage where neurons were observed to be most active before participants' favorite moments in the music, indicating anticipation of rewarding stimuli. |
| Q30 | anticipatory phase | The researchers call this the ‘anticipatory phase’ and argue that the purpose of this activity is to help us predict the arrival of our favourite part | Excerpt/Passage Explanation: The passage talks about a phase called the 'anticipatory phase' where the brain is active in predicting the arrival of a favorite part of the music. Answer Explanation: The answer refers to the period just before the favorite parts of the music when the brain is actively anticipating those moments. Reason For Correctness: The correct answer matches the description of the brain activity just before the participants' favorite music moments, which is known as the anticipatory phase. It reflects the idea that the brain is getting ready for a rewarding part of the music, which aligns with the information provided in the passage. |
| Q31 | food | in anticipating food and other ‘reward’ stimuli | Excerpt/Passage Explanation: The passage mentions that a part of the brain is active when anticipating 'reward' stimuli like food. Answer Explanation: The answer refers to something people often enjoy consuming for sustenance. Reason For Correctness: The correct answer, 'food,' is mentioned as an example of a 'reward' stimulus the brain anticipates, which aligns with the idea of satisfaction or enjoyment associated with eating food. |
| Q32 | B | sound stirs us at our biological roots | Excerpt/Passage Explanation: The passage talks about how sound affects us deep within our bodies. Answer Explanation: The answer highlights how strong our physical reactions can be to music. Reason For Correctness: The correct answer is emphasizing intense physical responses, which aligns with the idea that 'sound stirs us at our biological roots' from the excerpt. |
| Q33 | C | they were able to obtain an impressively exact and detailed portrait of music in the brain | Excerpt/Passage Explanation: The passage says that the Montreal study was able to create a very detailed and accurate picture of how music affects the brain. Answer Explanation: The answer suggests that the study produced very precise data about music in the brain. Reason For Correctness: The correct answer is 'C' because it aligns with the passage's description of the Montreal study producing remarkably precise data, as stated when it mentions 'impressively exact and detailed portrait.' This shows that the study was able to achieve a high level of accuracy and detail in its findings. |
| Q34 | A | around 15 seconds before the participants’ favourite moments in the music | Excerpt/Passage Explanation: The passage talks about something happening about 15 seconds before participants experience their favorite parts of the music. Answer Explanation: The answer choice A is about the timing of participants' brain responses to the music. Reason For Correctness: The correct answer is A because the passage mentions that something related to participants' experiences occurs around 15 seconds before their favorite parts of the music. This aligns with the timing of participants' neural responses mentioned in answer choice A. |
| Q35 | B | To demonstrate this psychological principle, the musicologist Leonard Meyer, in his classic book Emotion and Meaning in Music (1956), analysed the 5th movement of Beethoven’s String Quartet in C-sharp minor, Op. 131 | Excerpt/Passage Explanation: The passage mentions Leonard Meyer's book to show how he studied emotions in music, specifically analyzing a piece by Beethoven. Answer Explanation: The answer refers to Meyer's work on music and emotion to offer support for the findings of the Montreal study. Reason For Correctness: The correct answer is supported by the fact that Meyer's work is used in the passage to demonstrate a psychological principle, which aligns with providing support for the findings of another study, like the Montreal study. |
| Q36 | D | Meyer argued that the emotions we find in music come from the unfolding events of the music itself | Excerpt/Passage Explanation: The passage says that the emotions in music come from the way the music unfolds or progresses. Answer Explanation: The answer implies that the emotional response is influenced by the internal structure of the musical composition. Reason For Correctness: The correct answer is 'D' because Leonard Meyer's argument suggests that the emotional impact of music is primarily derived from how the music itself develops and progresses, meaning it is influenced by the internal structure of the music rather than external factors like memories, chords, or composer's intentions. |
| Q37 | F | Why are they so active in the period preceding the acoustic climax | Excerpt/Passage Explanation: The passage talks about the high activity of neurons before the most intense part or the climax of a musical piece. Answer Explanation: The answer refers to the fact that neuron activity increases before key points in a musical piece. Reason For Correctness: The correct answer matches the information in the excerpt where it discusses the heightened neuron activity prior to the most intense parts of music, which aligns with how emotive music can create anticipation or build-up before delivering what the listeners expect. |
| Q38 | B | Numerous studies, after all, have demonstrated that dopamine neurons quickly adapt to predictable rewards. If we know what’s going to happen next, then we don’t get excited. | Excerpt/Passage Explanation: The passage means that when we know what will happen next, we don't get excited. It's talking about how our brains work when we expect something to happen. Answer Explanation: The answer is saying that when we know what will happen next, the neuron activity goes down. This means our brains are not as active when things are predictable. Reason For Correctness: The correct answer is B because the passage says that dopamine neurons adapt to predictable rewards, which means they don't get excited when they know what's coming next. This means the neuron activity decreases when things are predictable. |
| Q39 | E | Meyer dissected 50 measures (bars) of the masterpiece, showing how Beethoven begins with the clear statement of a rhythmic and harmonic pattern and then, in an ingenious tonal dance, carefully holds off repeating it. What Beethoven does instead is suggest variations of the pattern. He wants to preserve an element of uncertainty in his music, making our brains beg for the one chord he refuses to give us. | Excerpt/Passage Explanation: The passage explains that Beethoven's music starts with a familiar pattern but doesn't immediately repeat it. Instead, he introduces variations to keep listeners interested and intrigued. Answer Explanation: The answer refers to the fact that Beethoven's music deliberately delays providing listeners with the predictable chords they expect to hear. Reason For Correctness: The correct answer is 'E' because the passage states that Beethoven avoids giving listeners the expected chord right away, choosing instead to offer variations. This deliberate delay in fulfilling listener expectations is captured by the statement that emotive music delays giving listeners what they expect to hear. |
| Q40 | C | While earlier theories of music focused on the way a sound can refer to the real world of images and experiences | Excerpt/Passage Explanation: The passage is talking about old ideas of music, which said that music can remind us of real-life pictures and events. Answer Explanation: The answer is saying that earlier theories of music thought that music can bring to mind actual pictures and events. Reason For Correctness: The correct answer is C because the passage mentions that old ideas of music focused on how a sound can refer to the real world of images and experiences, which matches the idea that music can bring to mind actual pictures and events. |