Can Animals Count IELTS Reading Answers
International English Language Testing System ( IELTS )
The 'Can Animals Count?' passage? It help you get better at reading comprehension. And thinking skills. The passage talk about animals. How they can count and think. It use science and psychology. Just like academic reading in IELTS.
You will learns to find main ideas. Understand long arguments. And explain what research say. The numerical cognition part? It is very close to science topics in IELTS. So it is helpful.
This passage help you grow Academic Reading Skills. And it include Matching Features questions. They are common in IELTS Reading tests.
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IELTS Prep Tips for Can Animals Count Reading Passage
| Tips | Details |
|---|---|
| 1. Skim and Scan the Passage | - Quickly read through the passage to grasp the main topic about numerical abilities in animals. - Identify sections discussing specific animal studies, experiments, and comparisons with human cognition. |
| 2. Identify the Main Idea of Each Paragraph | - Paragraph 1: Introduction to the idea that animals may have numerical abilities. - Paragraph 2: Examples of animals displaying counting skills in nature. - Paragraph 3: Scientific experiments testing whether animals can count. |
| 3. Focus on Keywords and Synonyms | - Identify key terms like "numerical cognition," "counting," "experiment," "instinct," and "training." - Recognize synonyms such as "comparing quantities" for "counting" and "research" for "experiments." |
| 4. Practice Matching Features Question Type | - Match specific animals with their numerical abilities or the experiments conducted on them. - Example: Alex the Parrot → Identified numbers up to six. - Example: Rhesus Monkeys → Demonstrated basic arithmetic skills. |
| 5. Be Aware of Paraphrasing | - The passage presents the same ideas using different wording. - Example: "Dogs can distinguish between small and large quantities" = "Canines show sensitivity to numerical differences." |
| 6. Manage Your Time | - Allocate sufficient time for each question type. - Don’t spend too much time on a single question—move on and return later if needed. |
| 7. Improve Vocabulary Knowledge | - Learn psychology and science-related terms such as "cognition," "quantitative," "perception," and "experimental design." - Example: "Researchers tested animal cognition" = "Scientists conducted experiments on numerical perception." |
| 8. Review Your Answers | - Ensure correct spelling and check if answers meet the required word limit. |
| 9. Write Answers in UPPERCASE | - Helps avoid errors in capitalization and formatting. |
| 10. Practice with Similar Passages | - Read articles on animal intelligence, psychology, and scientific experiments to build comprehension skills. |
Can Animals Count IELTS Reading Passage
The passage below "Can Animals Count" is inspired by Reading Practice Test. You should spend about 20 minutes on Questions 1-13, based on the reading passage.
- Prime among basic numerical faculties is the ability to distinguish between a larger and a smaller, says psychologist Elizabeth Brannon. Humans can do this with ease – providing the ratio is big enough – but do other animals share this ability? In one experiment, rhesus monkeys and university students examined two sets of geometrical objects that appeared briefly on a computer monitor. They had to decide which set contained more objects. Both groups performed successfully but, importantly, Brannon’s team found that monkeys, like humans, make more errors when two sets of objects are close in number. The students’ performance ends up looking just like a monkey’s. It’s practically identical, she says.
- Humans and monkeys are mammals, in the animal family known as primates. These are not the only animals whose numerical capacities rely on ratio, however. The same seems to apply to some amphibians. Psychologist Claudia Uller’s team tempted salamanders with two sets of fruit flies held in clear tubes. In a series of trials, the researchers noted which tube the salamanders scampered towards, reasoning that if they had a capacity to recognize the number, they would head for the larger number. The salamanders successfully discriminated between tubes containing 8 and 16 flies respectively, but not between 3 and 4, 4 and 6, or 8 and 12. So it seems that for the salamanders to discriminate between two numbers, the larger must be at least twice as big as the smaller. However, they could differentiate between 2 and 3 flies just as well as between 1 and 2 flies, suggesting they recognize small numbers in a different way from larger numbers.
- Further support for this theory comes from studies of mosquitofish, which instinctively join the biggest shoal they can. A team at the University of Padova found that while mosquitofish can tell the difference between a group containing 3 shoal-mates and a group containing 4, they did not show a preference between groups of 4 and 5. The team also found that mosquitofish can discriminate between numbers up to 16, but only if the ratio between the fish in each shoal was greater than 2:1. This indicates that the fish, like salamanders, possess both the approximate and precise number systems found in more intelligent animals such as infant humans and other primates.
- While these findings are highly suggestive, some critics argue that the animals might be relying on other factors to complete the tasks, without considering the number itself. ‘Any study that’s claiming an animal is capable of representing number should also be controlling for other factors,’ says Brannon. Experiments have confirmed that primates can indeed perform numerical feats without extra clues, but what about the more primitive animals?
- To consider this possibility, the mosquitofish tests were repeated, this time using varying geometrical shapes in place of fish. The team arranged these shapes so that they had the same overall surface area and luminance even though they contained a different number of objects. Across hundreds of trials on 14 different fish, the team found they consistently discriminated 2 objects from 3. The team is now testing whether mosquitofish can also distinguish 3 geometric objects from 4.
- Even more primitive organisms may share this ability. Entomologist Jurgen Tautz sent a group of bees down a corridor, at the end of which lay two chambers – one which contained sugar water, which they like, while the other was empty. To test the bees’ numeracy, the team marked each chamber with a different number of geometrical shapes – between 2 and 6. The bees quickly learned to match the number of shapes with the correct chamber. Like the salamanders and fish, there was a limit to the bees’ mathematical prowess – they could differentiate up to 4 shapes, but failed with 5 or 6 shapes.
- These studies still do not show whether animals learn to count through training, or whether they are born with the skills already intact. If the latter is true, it would suggest there was a strong evolutionary advantage to a mathematical mind. Proof that this may be the case has emerged from an experiment testing the mathematical ability of three – and four-day-old chicks. Like mosquitofish, chicks prefer to be around as many of their siblings as possible, so they will always head towards a larger number of their kin. If chicks spend their first few days surrounded by certain objects, they become attached to these objects as if they were family. Researchers placed each chick in the middle of a platform and showed it two groups of balls of paper. Next, they hid the two piles behind screens, changed the quantities and revealed them to the chick. This forced the chick to perform simple computations to decide which side now contained the biggest number of its “brothers”. Without any prior coaching, the chicks scuttled to the larger quantity at a rate well above chance. They were doing some very simple arithmetic, claim the researchers.
- Why these skills evolved is not hard to imagine, since it would help almost any animal forage for food. Animals on the prowl for sustenance must constantly decide which tree has the most fruit, or which patch of flowers will contain the most nectar. There are also other, less obvious, advantages of numeracy. In one compelling example, researchers in America found that female coots appear to calculate how many eggs they have laid – and add any in the nest laid by an intruder – before making any decisions about adding to them. Exactly how ancient these skills are is difficult to determine, however. Only by studying the numerical abilities of more and more creatures using standardized procedures can we hope to understand the basic preconditions for the evolution of number.
Can Animals Count IELTS Mock Test
Can Animals Count IELTS Reading Passage Questions & Answers
Questions 1-6
Match each statement with the correct animal or group of animals, A-F.
A. Rhesus monkeys
B. Salamanders
C. Mosquitofish
D. Bees
E. Chicks
F. Female coots
1. This species shows basic numerical recognition and likes to reside in an environment with more people.
Answer: E (Chicks)
Answer location: Paragraph G
Explanation: An experiment showed chicks naturally gravitate towards larger groups of balls, indicating their innate understanding of numbers, likely for evolutionary purposes or social bonding.
2. This animal struggles with larger quantities unless the ratio is greater than 2:1.
Answer: C (Mosquitofish)
Answer location: Paragraph C
Explanation: Mosquitofish can distinguish groups unless the ratio is more than 2:1. They can only process higher numbers if the difference is significant and noticeable.
3. Like humans, this species can discriminate between sets of varying quantities, although it makes more mistakes when the numbers are close together.
Answer: A (Rhesus monkeys)
Answer location: Paragraph A
Explanation: Both rhesus monkeys and humans can differentiate between groups of different quantities, but their accuracy declines when there's a minor discrepancy. In an experiment, both species struggled to distinguish quantities, making more mistakes when the numbers were near each other.
4. This species recognizes little numbers differently than it does bigger ones.
Answer: B (Salamanders)
Answer location: Paragraph B
Explanation: Salamanders can differentiate between small numbers like two and three flies, but larger numbers make it difficult, indicating they use a different cognitive process for small quantities.
5. This species counts the number of eggs they have laid Before determining whether to add more eggs to their nest.
Answer: F (Female coots)
Answer location: Paragraph H
Explanation: Female coots manage their nests by counting the number of eggs in their nest, including any extra eggs from other intruders, using simple counting techniques to determine if more eggs should be added.
6. Based on the number, this species can match shapes to a certain region.
Answer: D. (Bees)
Answer location: Paragraph F
Explanation: Bees demonstrated their ability to match geometric forms with specific chambers, one of which held sugar water, using numerical recognition, demonstrating their ability to identify and associate different numbers with specific areas.
Can Animals Count IELTS Reading Answers with Explanation
Question 7-13
The Reading Passage has sections, A-G.
Which section contains the following information?
Write the correct letter, A-G, in boxes 7-13 on your answer sheet.
7. Animals' ability to count without any prior training was evaluated in an experiment.
Answer: Paragraph G
Explanation: A study reveals young chicks can recognize larger groups of objects using simple math without prior experience, suggesting they may naturally count without prior education.
8. Criticism of the procedures used to assess the numerical skills of animals.
Answer: Paragraph D
Explanation: This section explores the question of whether animals truly comprehend numbers or if they rely on additional factors for numerical problems.
9. The ability to recognize animal numbers might be based on ratios.
Answer: Paragraph B
Explanation: The paragraph highlights that salamanders' number discrimination is based on ratios, requiring a greater number to be at least twice the smaller one.
10. The task was to assess sets of geometrical objects between people and rhesus monkeys.
Answer: Paragraph A
Explanation: This paragraph describes an experiment humans and rhesus monkeys compared sets of geometrical shapes on a computer screen to see which group had more things.
11. Bees' numerical skills were limited, much like those of the other species in the research.
Answer: Paragraph F
Explanation: The paragraph highlights that salamanders' number discrimination is based on ratios, requiring a more significant number to be at least twice the smaller one.
12. Mosquitofish were tested using different types of objects to evaluate their ability to distinguish numbers.
Answer: Paragraph E
Explanation: The experiment involved using mosquitofish with various geometric shapes to evaluate their ability to distinguish various items.
13. Animals' urge to obtain food is linked to the evolution of their numerical skills.
Answer: Paragraph H
Explanation: The passage connects the evolution of animals' numerical skills to their need for food, stating that these abilities help animals make decisions about which sources of food are the most abundant.
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