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  3. COMETS (1) Comets are among

COMETS (1) Comets are among

游客2024-01-02  14
问题                                                 COMETS
    (1) Comets are among the most interesting and unpredictable bodies in the solar system. They are made of frozen gases (water vapor, ammonia, methane, carbon dioxide, and carbon monoxide) that hold together small pieces of rocky and metallic materials. Many comets travel in very elongated orbits that carry them far beyond Pluto. These long-period comets take hundreds of thousands of years to complete a single orbit around the Sun. However, a few short-period comets (those having an orbital period of less than 200 years), such as Halley’s Comet, make a regular encounter with the inner solar system.
    (2) When a comet first becomes visible from Earth, it appears very small, but as it approaches the Sun, solar energy begins to vaporize the frozen gases, producing a glowing head called the coma. The size of the coma varies greatly from one comet to another. Extremely rare ones exceed the size of the Sun, but most approximate the size of Jupiter. Within the coma, a small glowing nucleus with a diameter of only a few kilometers can sometimes be detected. As comets approach the Sun, some develop a tail that extends for millions of kilometers. Despite the enormous size of their tails and comas, comets are relatively small members of the solar system.
    (3) The observation that the tail of a comet points away from the Sun in a slightly curved manner led early astronomers to propose that the Sun has a repulsive force that, pushes the particles of the coma away, thereby forming the tail. Today, two solar forces are known to contribute to this formation. One, radiation pressure, pushes dust particles away from the coma. The second, known as solar wind, is responsible for moving the ionized gases, particularly carbon monoxide. Sometimes a single tail composed of both dust and ionized gases is produced, but often two tails—one of dust, the other, a blue streak of ionized gases—are observed.
    (4) As a comet moves away from the Sun, the gases forming the coma recondense, the tail disappears, and the comet returns to distant space. Material that was blown from the coma to form the tail is lost from the comet forever. Consequently, it is believed that most comets cannot survive more than a few hundred close orbits of the Sun. Once all the gases are expelled, the remaining materials—a swarm of tiny metallic and stony particles—continue the orbit without a coma or a tail.
    (5) Comets apparently originate in two regions of the outer solar system. Most short-period comets are thought to orbit beyond Neptune in a region called the Kuiper belt, in honor of the astronomer Gerald Kuiper. During the past decade over a hundred of these icy bodies have been discovered. Most Kuiper belt comets move in nearly circular orbits that lie roughly in the same plane as the planets. A chance collision between two comets, or the gravitational influence of one of the Jovian planets—Jupiter, Saturn, Uranus, and Neptune—may occasionally alter the orbit of a comet in these regions enough to send it to the inner solar system and into our view.
    (6) Unlike short-period comets, long-period comets have elliptical orbits that are not confined to the plane of the solar system. These comets appear to be distributed in all directions from the Sun, forming a spherical shell around the solar system, called the Oort cloud, after the Dutch astronomer Jan Oort. Millions of comets are believed to orbit the Sun at distances greater than 10,000 times the Earth-Sun distance. The gravitational effect of a distant passing star is thought to send an occasional Oort cloud comet into a highly eccentric orbit that carries it toward the Sun. However, only a tiny portion of the Oort cloud comets have orbits that bring them into the inner solar system.
    (7) The most famous short-period comet is Halley’s Comet, named after English astronomer Edmond Halley. [A] Its orbital period averages 76 years, and every one of its 30 appearances since 240 B.C. has been recorded by Chinese astronomers. [B] When seen in 1910, Halley’s Comet had developed a tail nearly 1.6 million kilometers (I million miles) long and was visible during daylight hours. [C] Its most recent approach occurred in 1986. [D] [br] Paragraph 2 supports which of the following statements about comet size?
选项 A、The size of a comet is affected by the addition of gases absorbed as the comet passes the Sun.
B、The size of a comet’s tail is less variable than the size of its coma.
C、The coma of most comets is smaller than the Sun.
D、The size of a comet cannot be accurately determined until it nears Earth.
答案 C
解析 本题属于推论题,题干问第2段支持哪项关于彗星大小的描述。原文第2段第3句提到,大多数彗发接近木星的大小,又因为木星比太阳小,所以可推断出C项“大多数彗星的彗发比太阳小”。A项“彗星的大小受彗星通过太阳时吸收的气体增量的影响”,根据第2段第1句可知,彗星在接近太阳时,冻结气体会被蒸发,而不是A项说的吸收(absorb)。B项“就大小变化而言,彗尾比彗发的变化小”和D项“彗星在接近地球之前无法被精确地确定大小”无依据。
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