GRE阅读3大类题型出题考点和解题思路分析指点

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GRE阅读3大类题型出题考点和解题思路分析指点,我们一起来看看吧,下面小编就和大家分享,来欣赏一下吧。

GRE阅读3大类题型出题考点和解题思路分析指点

GRE阅读题型思路分析:主旨题

主旨题是GRE考试中唯一带有主观色彩的题型,它考察你对文章大意和总体结构的把握能力。前面我们说过,GRE阅读涉及的内容非常广泛,考古,生物,文学和社会科学几乎无所不包。那么,是否就没有技巧可谈了吗?绝对不是。文章内容可能千差万别,但文章的写作方式却只有寥寥的两种,即记叙文和议论文。记叙文是对某一件事,某一个现象或者某一个人的描述,即对客观事物的纪录和叙述,其中没有或者几乎没有作者自己的观点。记叙文有时间顺序和空间顺序两种组织形式。而议论文是作者根据某一客观事物或观点发表自己的看法,并用例子或者理由来证明作者自己的观点。根据文章的内容,议论文可以分成立论和驳论两种。而根据文章的组织形式,议论文可以有3种组织结构,分别为:从具体到概括模式,从概括到具体模式以及递进模式。

在GRE阅读中,没有真正的记叙文。也就是说,阅读文章基本上都是议论文,作者总是试图让你接受他的某一个观点。在证明自己的观点时,作者总是应用一些例子,即论据。这些论据和论点之间的有机结合就成了典型的GRE阅读文章。

掌握主旨的技巧在于文章每个段落的第一句。标准化的考试决定了文章组织结构的严谨性,即条理清晰和结构完整。条理清晰表现为写作模式不是具体到概括模式就是概括到具体模式,或者递进模式,而且承上启下的过渡都出现在每个段落的第一句;结构完整表现为内容的完整性和单一性,即每一篇文章都能向你传达一个而且只有一个有意义的观点或者论点,不会让你读后感觉到不知文章所云为何物。

GRE阅读题型思路分析:细节题

细节题题是最简单的题型,但也是GRE阅读部分出现得最多的题型。只要你能定位原文,问题就迎刃而解。题目问的内容中都已经在原文直接提到,只是用同义词或者不同的语言组织改写而已。常见的改写方式有形容词与副词之间的改写,动词与动名词之间的改写。技巧在于寻找词根。

细节题题提问的是文章中的某个细节,如组织结构词(原因,特点),学科术语,行业术语,比喻,符号或者具体的数字。只要你能准确定位,这些题都比较简单。

细节题还有一类类似的题目叫做暗示推理题,这是GRE阅读考试中较难的题型。如果说细节题要脑子转一次弯的话,那么暗示推理题就需要转两次弯。ETS包括所有的美国人将这称为一个人的Intelligent Ability,即智力。这种题在阅读题中出现的概率是0.3,每3道题中就会出一道,即大概每篇阅读出一道。

GRE阅读题型思路分析:列举题

列举,顾名思义,就是符合某种条件的几个例子,例子可以是某几个事件,动作,情况或者人物。列举题有两种形式,一种是列举非,它问你四个选项中哪一个原文中没有提及。应对的办法仍然是定位原文,然后采用排除法,直至找到正确答案。第二种列举题要你在四个选项种找出哪一个选项在原文中提及,应对的措施仍然是根据关键词定位。其实,列举题并不难,出现的概率也比较大,每篇阅读大概出现一题。

以上就是小编为各位考生整理的关于GRE阅读考试的几大题型介绍,希望考生积极做好备考工作,及时调整好状态,争取在GRE阅读考试中取得理想的成绩!

GRE阅读练习每日一篇

Jean Wagner’s most enduring contribution to the study of Afro-American poetry is his insistence that it be analyzed in a religious, as well as secular, frame of reference. The appropriateness of such an approach may seem self-evident for a tradition commencing with spirituals and owing its early forms, rhythms, vocabulary, and evangelical fervor to Wesleyan hymnals. But before Wagner a secular outlook that analyzed Black poetry solely within the context of political and social protest was dominant in the field.

It is Wagner who first demonstrated the essential fusion of racial and religious feeling in Afro-American poetry. The two, he argued, form a symbiotic union in which religious feelings are often applied to racial issues and racial problems are often projected onto a metaphysical plane. Wagner found this most eloquently illustrated in the Black spiritual, where the desire for freedom in this world and the hope for salvation in the next are inextricably intertwined.

17. The primary purpose of the passage is to

(A) contrast the theories of Jean Wagner with those of other contemporary critics

(B) document the influence of Jean Wagner on the development of Afro-American poetry

(C) explain the relevance of Jean Wagner’s work to the study of Afro-American religion

(D) indicate the importance of Jean Wagner’s analysis of Afro-American poetry

(E) present the contributions of Jean Wagner to the study of Black spirituals

18. All of the following aspects of Afro-American poetry are referred to in the passage as having been influenced by Wesleyan hymnals EXCEPT:

(A) subject matter

(B) word choice

(C) rhythm

(D) structure

(E) tone

19. It can be inferred from the passage that, before Wagner, most students of Afro-American poetry did which of the following?

(A) Contributed appreciably to the transfer of political protest from Afro-American poetry to direct political action.

(B) Ignored at least some of the historical roots of Afro-American poetry.

(C) Analyzed fully the aspects of social protest to be found in such traditional forms of Afro-American poetry as the Black spiritual.

(D) Regarded as unimportant the development of fervent emotionalism in a portion of Afro-American poetry.

(E) Concentrated on the complex relations between the technical elements in Afro-American poetry and its political content.

Two relatively recent independent developments stand behind (stand behind: 后援, 做后盾) the current major research effort on nitrogen fixation, the process by which bacteria symbiotically render leguminous plants independent of nitrogen fertilizer. The one development has been the rapid, sustained increase in the price of nitrogen fertilizer (nitrogen fertilizer: 氮肥(料)). The other development has been the rapid growth of knowledge of and technical sophistication in genetic engineering. Fertilizer prices, largely tied to the price of natural gas, huge amounts of which go into the manufacture of fertilizer, will continue to represent an enormous and escalating economic burden on modern agriculture, spurring the search for alternatives to synthetic fertilizers. And genetic engineering is just the sort of fundamental breakthrough that opens up prospects of wholly novel alternatives. One such novel idea is that of inserting into the chromosomes of plants discrete genes that are not a part of the plants’ natural constitution: specifically, the idea of inserting into nonleguminous plants the genes, if they can be identified and isolated, that fit the leguminous plants to be hosts for nitrogen-fixing bacteria. Hence, the intensified research on legumes.

Nitrogen fixation is a process in which certain bacteria use atmospheric nitrogen gas, which green plants cannot directly utilize, to produce ammonia, a nitrogen compound plants can use. It is one of nature’s great ironies that the availability of nitrogen in the soil frequently sets an upper limit on plant growth even though the plants’ leaves are bathed in a sea of nitrogen gas. The leguminous plants—among them crop plants such as soybeans, peas, alfalfa, and clover—have solved the nitrogen supply problem by entering into a symbiotic relationship with the bacterial genus Rhizobium; as a matter of fact (as a matter of fact: adv.事实上), there is a specific strain of Rhizobium for each species of legume. The host plant supplies the bacteria with food and a protected habitat and receives surplus ammonia in exchange. Hence, legumes can thrive in nitrogen-depleted soil.

Unfortunately, most of the major food crops—including maize, wheat, rice, and potatoes—cannot. On the contrary, many of the high-yielding hybrid varieties of these food crops bred during the Green Revolution of the 1960’s were selected specifically to give high yields in response to generous applications of nitrogen fertilizer. This poses an additional, formidable challenge to plant geneticists: they must work on enhancing fixation within the existing symbioses. Unless they succeed, the yield gains of the Green Revolution will be largely lost even if the genes in legumes that equip those plants to enter into a symbiosis with nitrogen fixers are identified and isolated, and even if the transfer of those gene complexes, once they are found, becomes possible. The overall task looks forbidding, but the stakes are too high not to undertake it.

20. The primary purpose of the passage is to

(A) expose the fragile nature of the foundations on which the high yields of modern agriculture rest

(B) argue that genetic engineering promises to lead to even higher yields than are achievable with synthetic fertilizers

(C) argue that the capacity for nitrogen-fixing symbioses is transferable to nonleguminous plants

(D) explain the reasons for and the objectives of current research on nitrogen-fixing symbioses

(E) describe the nature of the genes that regulate the symbiosis between legumes and certain bacteria

21. According to the passage, there is currently no strain of Rhizobium that can enter into a symbiosis with

(A) alfalfa

(B) clover

(C) maize

(D) peas

(E) soybeans

22. The passage implies that which of the following is true of the bacterial genus Rhizobium?

(A) Rhizobium bacteria are found primarily in nitrogen-depleted soils.

(B) Some strains of Rhizobium are not capable of entering into a symbiosis with any plant.

(C) Newly bred varieties of legumes cannot be hosts to any strain of Rhizobium.

(D) Rhizobium bacteria cannot survive outside the protected habitat provided by host plants.

(E) Rhizobium bacteria produce some ammonia for their own purposes.

23. It can be inferred from the passage that which of the following was the most influential factor in bringing about intensified research on nitrogen fixation?

(A) The high yields of the Green Revolution

(B) The persistent upward surge in natural gas prices

(C) The variety of Rhizobium strains

(D) The mechanization of modern agriculture

(E) The environmental ill effects of synthetic fertilizers

24. Which of the following situations is most closely analogous to the situation described by the author as one of nature’s great ironies (lines 28-32)?

(A) That of a farmer whose crops have failed because the normal midseason rains did not materialize and no preparations for irrigation had been made

(B) That of a long-distance runner who loses a marathon race because of a wrong turn that cost him twenty seconds

(C) That of shipwrecked sailors at sea in a lifeboat, with one flask of drinking water to share among them

(D) That of a motorist who runs out of gas a mere five miles from the nearest gas station

(E) That of travelers who want to reach their destination as fast and as cheaply as possible, but find that cost increases as travel speed increases

25. According to the passage, the ultimate goal of the current research on nitrogen fixation is to develop

(A) strains of Rhizobium that can enter into symbioses with existing varieties of wheat, rice, and other nonlegumes

(B) strains of Rhizobium that produce more ammonia for leguminous host plants than do any of the strains presently known

(C) varieties of wheat, rice, and other nonlegumes that yield as much as do existing varieties, but require less nitrogen

(D) varieties of wheat, rice, and other nonlegumes that maintain an adequate symbiotic relationship with nitrogen-fixing bacteria and produce high yields

(E) high-yielding varieties of wheat, rice, and other nonlegumes that are genetically equipped to fix nitrogen from the air without the aid of bacteria

26. The author regards the research program under discussion as

(A) original and extensive but ill-defined as to method

(B) necessary and ambitious but vulnerable to failure

(C) cogent and worthwhile but severely under-funded

(D) prohibitively expensive but conceptually elegant

(E) theoretically fascinating but practically useless

27. Most nearly parallel, in its fundamental approach, to the research program described in the passage would be a program designed to

(A) achieve greater frost resistance in frost-tender food plants by means of selective breeding, thereby expanding those plants’ area of cultivation

(B) achieve greater yields from food plants by interplanting crop plants that are mutually beneficial

(C) find inexpensive and abundant natural substances that could, without reducing yields, be substituted for expensive synthetic fertilizers

(D) change the genetic makeup of food plants that cannot live in water with high salinity, using genes from plants adapted to salt water

(E) develop, through genetic engineering, a genetic configuration for the major food plants that improves the storage characteristics of the edible portion of the plants

答案:17-27:DABDCEBCDBD

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GRE阅读3大类题型出题考点和解题思路分析指点

GRE阅读3大类题型出题考点和解题思路分析指点,我们一起来看看吧,下面小编就和大家分享,来欣赏一下吧。GRE阅读3大类题型出题考点和解题思路分析指点GRE阅读题型思路分析:主旨题主??
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