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GMAT考试阅读资料(二)b

15

Passage 8
Virtually everything astronomers known about objects outside the solar system is based on the detection of photons-quanta of electromagnetic radiation. Yet there is another form of radiation that permeates the universe:(5) neutrinos. With (as its name implies) no electric charge, and negligible mass, the neutrino interacts with other particles so rarely that a neutrino can cross the entire universe, even traversing substantial aggregations of matter, without being absorbed or even deflected. Neu-(10) trinos can thus escape from regions of space where light  and other kinds of electromagnetic radiation are blockedby matter. Furthermore, neutrinos carry with theminformation about the site and circumstances of their  production: therefore, the detection of cosmic neutrinos(15) could provide new information about a wide variety of  cosmic phenomena and about the history of the uni-verse.
But how can scientists detect a particle that interactsso infrequently with other matter? Twenty-five years(20) passed between Pauli‘s hypothesis that the neutrinoexisted and its actual detection: since then virtually all  research with neutrinos has been with neutrinos createdartificially in large particle accelerators and studiedunder neutrino microscopes. But a neutrino telescope,(25) capable of detecting cosmic neutrinos, is difficult to co-nstruct. No apparatus can detect neutrinos unless it isextremely massive, because great mass is synonymous  with huge numbers of nucleons (neutrons and protons),and the more massive the detector, the greater the pro-(30) bability of one of its nucleon’s reacting with a neutrino. In addition, the apparatus must be sufficiently shielded  from the interfering effects of other particles.
Fortunately, a group of astrophysicists has proposed  a means of detecting cosmic neutrinos by harnessing the(35) mass of the ocean. Named DUMAND, for Deep Under-  water Muon and Neutrino Detector, the project calls for  placing an array of light sensors at a depth of five kilo-  meters under the ocean surface. The detecting medium is  the seawater itself: when a neutrino interacts with a(40)particle in an atom of seawater. the result is a cascade of  electrically charged particles and a flash of light that can  be detected by the sensors. The five kilometers of sea-  water above the sensors will shield them from the interf-  ering effects of other high-energy particles raining down(45) through the atmosphere.
The strongest motivation for the DUMAND projectis that it will exploit an important source of informationabout the universe. The extension of astronomy fromvisible light to radio waves to x-rays and gamma rays(50) never failed to lead to the discovery of unusual objects  such as radio galaxies, quasars, and pulsars. Each of  these discoveries came as a surprise. Neutrino astronomy  will doubtless bring its own share of surprises.

1. Which of the following titles best summarizes the passage as a whole?
  (A) At the Threshold of Neutrino Astronomy
  (B) Neutrinos and the History of the Universe
  (C) The Creation and Study of Neutrinos
  (D) The DUMAND System and How It Works
  (E) The Properties of the Neutrino

2. With which of the following statements regardingneutrino astronomy would the author be most likelyto agree?
 (A) Neutrino astronomy will supersede all present forms of astronomy.
 (B) Neutrino astronomy will be abandoned if the DUMAND project fails.
 (C) Neutrino astronomy can be expected to lead to major breakthroughs in astronomy.
 (D) Neutrino astronomy will disclose phenomena that will be more surprising than past discoveries.
 (E) Neutrino astronomy will always be characterized by a large time lag between hypothesis and experimental confirmation.

3. In the last paragraph, the author describes thedevelopment of astronomy in order to
(A) suggest that the potential findings of neutrino astronomy can be seen as part of a series of astronomical successes
  (B) illustrate the role of surprise in scientific discovery
  (C) demonstrate the effectiveness of the DUMAND apparatus in detecting neutrinos
  (D) name some cosmic phenomena that neutrino astronomy will illuminate
  (E) contrast the motivation of earlier astronomers with that of the astrophysicists working on the DUMAND project

4.According to the passage, one advantage that neutrinos  have for studies in astronomy is that they
 (A) have been detected for the last twenty-five years
 (B) possess a variable electric charge 
 (C) are usually extremely massive 
 (D) carry information about their history with them
 (E) are very similar to other electromagnetic particles

5. According to the passage, the primary use of the apparatus mentioned in lines 24-32 would be to
 (A) increase the mass of a neutrino 
 (B) interpret the information neutrinos carry with them 
 (C) study the internal structure of a neutrino
 (D) see neutrinos in distant regions of space
 (E) detect the presence of cosmic neutrinos

6. The passage states that interactions between neutrinos and other matter are
 (A) rare
 (B) artificial
 (C) undetectable
 (D) unpredictable
 (E) hazardous

7. The passage mentions which of the following as a reason that neutrinos are hard to detect?
 (A) Their pervasiveness in the universe (B) Their ability to escape from different regions of space
 (C) Their inability to penetrate dense matter
 (D) The similarity of their structure to that of nucleons
 (E) The infrequency of their interaction with other matter

8. According to the passage, the interaction of a neutrino with other matter can produce
 (A) particles that are neutral and massive
 (B) a form of radiation that permeates the universe
 (C) inaccurate information about the site and circumstances of the neutrino‘s production
 (D) charged particles and light
 (E) a situation in which light and other forms of electromagnetic radiation are blocked

9. According to the passage, one of the methods used to  establish the properties of neutrinos was
 (A) detection of photons
 (B) observation of the interaction of neutrinos with gamma rays
 (C) observation of neutrinos that were artificially created
 (D) measurement of neutrinos that interacted with particles of seawater
 (E) experiments with electromagnetic radiation

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