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Great comic art is never otherwordly, it does not seek to mystify us, and it does not deny ambiguity by branding as evil whatever differs from good. Great comic artists assume that truth may bear all lights, and thus they seek to accentuate contradictions in social action, not gloss over (gloss over: v.掩盖) or transcend them by appeals to extrasocial symbols of divine ends, cosmic purpose, or laws of nature. The moment of transcendence in great comic art is a social moment, born out of the conviction that we are human, even though we try to be gods. The comic community to which artists address themselves is a community of reasoning, loving, joyful, compassionate beings, who are willing to assume the human risks of acting rationally. Without invoking gods or demons, great comic art arouses courage in reason, courage which grows out of trust in what human beings can do as humans.
17. The passage suggests that great comic art can be characterized as optimistic about the ability of humans to
(A) rid themselves of pride
(B) transcend the human condition
(C) differentiate clearly between good and evil
(D) avoid social conflicts
(E) act rationally
18. It can be inferred from the passage that the author admires great comic artists primarily for their
(A) ability to understand the frequently subtle differences between good and evil
(B) ability to reconcile the contradictions in human behavior
(C) ability to distinguish between rational and irrational behavior
(D) insistence on confronting the truth about the human condition
(E) insistence on condemning human faults and weaknesses
19. Which of the following is the most accurate description of the organization of the passage?
(A) A sequence of observations leading to a prediction
(B) A list of inferences drawn from facts stated at the beginning of the passage
(C) A series of assertions related to one general subject
(D) A statement of the major idea, followed by specific examples
(E) A succession of ideas moving from specific to general
It has long been known that the rate of oxidative metabolism (the process that uses oxygen to convert food into energy) in any animal has a profound fect on its living patterns. The high metabolic rate of small animals, for example, gives them sustained power and activity per unit of weight, but at the cost of (at the cost of: adv.以...为代价) requiring constant consumption of food and water. Very large animals, with their relatively low metabolic rates, can survive well on a sporadic food supply, but can generate little metabolic energy per gram of body weight. If only oxidative metabolic rate is considered, therore, one might assume that smaller, more active, animals could prey on larger ones, at least if they attacked in groups. Perhaps they could if it were not for anaerobic glycolysis, the great equalizer.
Anaerobic glycolysis is a process in which energy is produced, without oxygen, through the breakdown of muscle glycogen into lactic acid and adenosine triphosphate (ATP), the energy provider. The amount of energy that can be produced anaerobically is a function of the amount of glycogen present—in all vertebrates about 0.5 percent of their muscles’ wet weight. Thus the anaerobic energy reserves of a vertebrate are proportional to the size of the animal. If, for example, some predators had attacked a 100-ton dinosaur, normally torpid, the dinosaur would have been able to generate almost instantaneously, via anaerobic glycolysis, the energy of 3,000 humans at maximum oxidative metabolic energy production. This explains how many large species have managed to compete with their more active neighbors: the compensation for a low oxidative metabolic rate is glycolysis.
There are limitations, however, to this compensation. The glycogen reserves of any animal are good, at most, for only about two minutes at maximum fort, after which only the normal oxidative metabolic source of energy remains. With the conclusion of a burst of activity, the lactic acid level is high in the body fluids, leaving the large animal vulnerable to attack until the acid is reconverted, via oxidative metabolism, by the liver into glucose, which is then sent (in part) back to the muscles for glycogen resynthesis. During this process the enormous energy debt that the animal has run up (run up: v.迅速积累) through anaerobic glycolysis must be repaid, a debt that is proportionally much greater for the larger vertebrates than for the smaller ones. Whereas the tiny shrew can replace in minutes the glycogen used for maximum fort, for example, the gigantic dinosaur would have required more than three weeks. It might seem that this interminably long recovery time in a large vertebrate would prove a grave disadvantage for survival. Fortunately, muscle glycogen is used only when needed and even then only in whatever quantity is necessary. Only in times of panic or during mortal combat would the entire reserves be consumed.
20. The primary purpose of the passage is to
(A) rute a misconception about anaerobic glycolysis
(B) introduce a new hypothesis about anaerobic glycolysis
(C) describe the limitations of anaerobic glycolysis
(D) analyze the chemistry of anaerobic glycolysis and its similarity to oxidative metabolism
(E) explain anaerobic glycolysis and its fects on animal survival
21. According to the author, glycogen is crucial to the process of anaerobic glycolysis because glycogen
(A) increases the organism’s need for ATP
(B) reduces the amount of ATP in the tissues
(C) is an inhibitor of the oxidative metabolic production of ATP
(D) ensures that the synthesis of ATP will occur speedily
(E) is the material from which ATP is derived
22. According to the author, a major limitation of anaerobic glycolysis is that it can
(A) produce in large animals more lactic acid than the liver can safely reconvert
(B) necessitate a dangerously long recovery period in large animals
(C) produce energy more slowly than it can be used by large animals
(D) consume all of the available glycogen regardless of need
(E) reduce significantly the rate at which energy is produced by oxidative metabolism
23. The passage suggests that the total anaerobic energy reserves of a vertebrate are proportional to the vertebrate’s size because
(A) larger vertebrates conserve more energy than smaller vertebrates
(B) larger vertebrates use less oxygen per unit weight than smaller vertebrates
(C) the ability of a vertebrate to consume food is a function of its size
(D) the amount of muscle tissue in a vertebrate is directly related to its size
(E) the size of a vertebrate is proportional to the quantity of energy it can utilize
24. The author suggests that, on the basis of energy production, a 100-ton dinosaur would have been markedly vulnerable to which of the following?
I. Repeated attacks by a single smaller, more active adversary
II. Sustained attack by numerous smaller, more active adversaries
III. An attack by an individual adversary of similar size
(A) II only
(B) I and II only
(C) I and III only
(D) II and III only
(E) I, II, and III
25. It can be inferred from the passage that the time required to replenish muscle glycogen following anaerobic glycolysis is determined by which of the following factors?
I. Rate of oxidative metabolism
II. Quantity of lactic acid in the body fluids
III. Percentage of glucose that is returned to the muscles
(A) I only
(B) III only
(C) I and II only
(D) I and III only
(E) I, II, and III
26. The author is most probably addressing which of the following audiences?
(A) College students in an introductory course on animal physiology
(B) Historians of science investigating the discovery of anaerobic glycolysis
(C) Graduate students with specialized training in comparative anatomy
(D) Zoologists interested in prehistoric animals
(E) Biochemists doing research on oxidative metabolism
27. Which of the following best states the central idea of the passage?
(A) The disadvantage of a low oxidative metabolic rate in large animals can be offset by their ability to convert substantial amounts of glycogen into energy.
(B) The most significant problem facing animals that have used anaerobic glycolysis for energy is the resynthesis of its by-product, glucose, into glycogen.
(C) The benits to animals of anaerobic glycolysis are offset by the profound costs that must be paid.
(D) The major factor ensuring that a large animal will triumph over a smaller animal is the large animal’s ability to produce energy via anaerobic glycolysis.
(E) The great differences that exist in metabolic rates between species of small animals and species of large animals can have important fects on the patterns of their activities.
答案:EDCEEBDAEAA
Amy GUO 经验: 16年 案例:4272 擅长:美国,澳洲,亚洲,欧洲
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