2024年12月7日雅思考试阅读真题及答案(1)
【雅思真题】栏目更新了2024年12月7日雅思考试中的一道阅读真题——《Cosmic Black Hole黑洞》,以下为雅思阅读真题的具体题目以及答案:
- 2024年12月7日雅思考试阅读真题文章
- Cosmic Black Hole
In 1687, the English scientist Isaac Newton published his monumental work, Philosophiae Naturalis Principia Mathematica (Mathematical Principles of Natural Philosophy), containing his theory of gravitation and the mathematics to support it. in essence, Newton's law of gravitation stated that the gravitational force between two objects, for example, two astronomical bodies, is directly proportional to their masses. Astronomers found that it accurately predicted all the observable data that science at that time was able to collect, with one exception- a very slight variation in the orbit of the planet Mercury around the sun. It was 228 years before anyone was able to offer a refinement of Newton's law that accounted for the shape of Mercury's orbit. In 1915, Albert Einstein's general theory of relativity was published. Using the equations of general relativity, he calculated the shape of Mercury's orbit. The results predicted astronomical observations exactly and provided the first proof of his theory. Expressing it very simplistically, the general theory of relativity presumes that both matter and energy can distort space-time and cause it to curve. What we commonly call gravity is in fact the effect of that curvature.
Among other phenomena, Einstein's theory predicted the existence of black holes, although initially, he had doubts about their existence. Black holes are areas in space where the gravitational field is so strong that nothing can escape them. Because of the immense gravitational pull, they consume all the light that comes near them, and thus they are black." in fact, neither emitting nor reflecting light, they are invisible. Due to this, they can be studied only by inference based on observations of their effect on the matter- both stars and Gasses- around them and by computer simulation. In particular, when gases are being pulled into a black hole, they can reach temperatures up to 1,000 times the heat of the sun and becomes an intensely glowing source of X rays Surrounding each black hole is an "event horizon," which defines the area over which the gravitational force of the black hole operates. Anything passing over the lip of the event horizon is pulled into the black hole. Because observations of event horizons are difficult due to their relatively small size, even less is known about them than about black holes themselves. Black holes exist in three sizes. Compact ones, called star-mass black holes and which have been known to exist for some time, are believed to be the result of the death of a single star. When a star has consumed itself to the point that it no longer has the energy to support its mass, the core collapses and forms a black hole. Shock waves then bounce out, causing the shell of the star to explode. In a way that is not yet understood, the black hole may then reeneffize and create multiple explosions within the first few minutes of its existence. So-called supermassive black holes, also well documented, contain the mass of millions or even billions of stars. And just recently one intermediate black hole, with about 500 times the mass of the sun, has been discovered. Scientists have postulated that the intermediate black hole may provide a "missing link in understanding the evolution of black holes.
Current scientific data suggest that black holes are fairly common and lie at the center of most galaxies. Based on indirect evidence gained using X-ray telescopes, thousands of black holes
have been located in our galaxy and beyond. The blagk hole at the center of the Milky Way, known as Sagittarius A* (pronounced "A-star*), is a supermassive one, containing roughly four million times the mass of our sun. Astronomers suggest that orbiting around Sagittarius A*, 26,000 light-years from Earth, maybe as many as tens of thousands of smaller black holes. One possible theory to explain this is that a process called dynamical friction" is causing stellar black holes to sink toward the center of the galaxy. It is thought that the first black holes came into existence not long after the big bang. Newly created clouds of gases slowly coalesced into the first stars. As these early stars collapsed, they gave rise to the first black holes. A number of theories proposed that the first black holes were essential "seeds," which then gravitationally attracted and consumed enormous quantities of matter found in adjacent gas clouds and dust. This allowed them to grow into the supermassive black holes that now sit in the centers of galaxies. However, a new computer simulation proposes that such growth was minimal. When the simulated star collapsed and formed a black hole, there was very little matter anywhere near the black hole's event horizon. Being in essence "starved," it grew by less than 1 percent over the course of its first hundred million years. The new simulations do not definitively invalidate the seed theory, but they make it far less likely. On the other hand, it is known that black holes existed a billion times more massive than our sun did exist in the early universe. Researchers have yet to discover how these supermassive black holes were formed in such a short time, and the origin of these giants poses one of the most fundamental questions in astrophysics. It has become practically a hallmark of the research on black holes that with each new study. more is known, more theories are generated, and yet more questions are raised than answered.
- 2024年12月7日雅思考试阅读真题题目
Questions 28—34
Complete each sentence with the correct ending, A—N, below.
Write the correct letter, A —N, on lines 28—34 on your answer sheet.
28 Newton’s law of gravitation
29 Einstein’s theory of relativity
30 We define black holes as areas that have
31 Scientists study black holes
32 Gases that are pulled into a black hole
33 Event horizons are
34 Compact black holes occur
A. by observing the matter around them.
B. suggested the presence of black holes in outer space.
C. when a single star collapses.
D. difficult to study.
E. barely visible light.
F. an inescapable gravitational pull.
G. did not apply to most astronomical bodies.
H. by direct observation.
I. could not explain Mercury’s path around the sun.
J. caused doubt about the existence of black holes.
K. lose visibility.
L. become very hot.
M. with large event horizons.
N. at the center of each black hole.
Questions 35 and 36
Choose the correct letter, A, B, or C, in boxes 35 and 36 on your answer sheet.
35 Black holes can be found
A. only in the Milky Way.
B. in most galaxies.
C. close to the sun.
36 Sagittarius A* is
A. a black hole located 26,000 light-years from Earth.
B. one of the thousands of black holes orbiting Earth.
C. a well-known compact black hole.
Questions 37-40
Do the following statements agree with the information given in the passage?
On lines 37—40 on your answer sheet, write:
TRUE if the statement agrees with the information
FALSE if the statement contradicts the information
NOT GIVEN If there is no information on this in the passage
37 It is not certain when the big bang occurred.
38 According to the “seed” theory, the first black holes eventually became supermassive black holes.
39 The “seed” theory has been proven true by computer simulation.
40The black holes that existed in the early universe were all compact black holes.
- 2024年12月7日雅思考试阅读真题参考答案
28. I
29. B
30. F
31. A
32. L
33. D
34. C
35. B
36. A
37. NOT GIVEN
38. TRUE
39. FALSE
40. FALSE
【雅思真题】2024年12月7日雅思考试真题《Cosmic Black Hole黑洞》到这里结束了,欢迎大家进入说客英语官网的雅思真题栏目,了解更多的雅思真题,或者进入雅思考试栏目,了解雅思考试报名官网、雅思考试报名时间、雅思考试报名费用等雅思考试指南。