Part of the scientific faith of the late nineteenth century was the view that there was one and only one scientific method.This method�����,argued writers like Karl Pearson in his Grammar of Science����,was the only sure method for arriving at knowledge in any sphere.The method was easily described: collect the facts in the area under study;order them into sequences,such that law like occurrences could be seen;then��,write down the laws so identified.According to this view�����,disciplines differed only as to subject matter��,since the unity of science consisted of its method alone.Also�,according to this view,the results of scientific investigation(that is���,new knowledge)will always be embodied in the form of a law connecting the facts in the area under study.
Explanation�,according to this view����,is simply accounting for facts on the basis of a deduction from a known law or laws,or accounting for some subordinate law on the basis of a deduction from some more general law or laws.The most influential formulation of this explanation is Carl G Hempel‘s�����, perhaps most accessibly articulated in his article“Explanation in Science and History”�。Sometimes��,according to Hempel�����,such laws are of a strictly universal form and other times they are of a probabilistic or statistical form.They are assertions�����,in this latter case�,of the kind that if certain specified conditions are realized then an occurrence of such and such a kind will come about with such a probability.
I think that it would be true to say that in the late nineteenth century it was felt that one feature distinguishing physics from history as a discipline was that���,even if they shared exactly the same method��,physics had no need for the latter kind of probabilistic explanation——at least in principle——while in history it was unavoidable.
However,in the twentieth century�����,whatever else may distinguish physics and history as disciplines it is not that physics uses only strictly universal laws and deductive explanations in the nineteenth century sense��,while history does not.The physics of the century�,from 1 900 onward,has been interested in aggregates of certain classes of physical individuals(the particles)and in accounts of the individuals that would enable one to understand the aggregates.As a consequence partly of this interest in statistical data pertaining to the very small�����,as well as for a number of other reasons,physicists have tended to formulate the mechanics of the very small in terms of equations in which probabilistic notions are fundamental.
1. According to Karl Pearson�����,only one scientific method——���。
[A J prevailed in every field of study during 1890s
[B]directed the collection and arrangement of facts
[C]served as a unique element uniting all disciplines
[D]made the identification of new knowledge plausible
2. As stated by Hempel����,general laws are——�。
[A]based on detailed accounts of actual facts
[B]composed of subordinate laws by deduction
[C]realized in probabilistic or statistic form
[D]applied to all cases or under certain conditions
3. The author feels sure of the truth that in 19th century———————
[A]physics and history shared a common feature
[B]the same method blended history with ph)rsics
[C]statistical laws were compatible with physics
[D]probabilistic method was inapplicable to history
4. In the 20th century, it was true that—————————
[A]universal laws ceased to belong merely to physics
[B]deductive explanations became dominant in history
[C]distinction between history and physics turned obscure
[D]statistical explanations were adopted by physicists
5. In the study of physical particles_____
[A]statistical information accounts for the interest in aggregates
[B]probabilistic conceptions result from their formulation
[C] description of their mechanics is based on statistical data
[D]physical equations are accountable for probabilistic ideas
核心詞匯
sphere n.范圍����,領(lǐng)域
subordinate adj.從屬的
probability n.可能性
sequence n.次序,順序
articulate vt.清晰地表達
consequence n.結(jié)果
embody vt.使具體化
statistical adj.統(tǒng)計的
formulate vt.用公式表示
19世紀末期的科學(xué)信仰中包括這樣一種觀點��,即世界上有且僅有一種科學(xué)方法����。一些作家指出(如卡爾。皮爾遜在其著作《科學(xué)的語法》中寫道):這種方法是惟一一種在任何領(lǐng)域都可獲得知識的有效方法���。這種方法描述起來十分容易:通過調(diào)查研究后����,在該領(lǐng)域收集事實;將這些事實按順序排好,以保證根據(jù)所發(fā)生的事件總結(jié)出定律;然后���,將所發(fā)現(xiàn)的定律寫下來�����。根據(jù)這種觀點����,既然科學(xué)是統(tǒng)一的�����,并且只包含這惟一一種方法���,因此各個學(xué)科的區(qū)別僅僅在于內(nèi)容的不同。同樣����,根據(jù)這種觀點����,科研調(diào)查的結(jié)果(也就是新知識)永遠都是以在該領(lǐng)域進行調(diào)查的前提下連接各類事實的定律的形式所體現(xiàn)出來的�。
根據(jù)這種觀點,解釋僅僅是在演繹的基礎(chǔ)上說明事實���,而這種演繹來自于著名的定律���,或者是在演繹的基礎(chǔ)上說明某種從屬定律,這種演繹來自于更普遍的定律�。關(guān)于解釋最具影響力的確切表達來自于卡爾吉。亨普爾���,在他的《科學(xué)與歷史中的解釋》一文中表述得很清楚�����。根據(jù)亨普爾的觀點���,有的時候,這些定律有著十分嚴格的共同形式;其他時候��,這些定律體現(xiàn)的則是概率或是統(tǒng)計數(shù)字的形式���,這種情況下���,這些定律屬于論斷����,即如果滿足某些具體條件��,某種結(jié)果便會依某種概率而發(fā)生����。
在19世紀末期,人們認為物理作為一門學(xué)科��,與歷史相比����,一個明顯區(qū)別就是即使兩種學(xué)科均使用同一種方法,但至少從原則上講����,物理沒有必要進行概率解釋,而歷史這門學(xué)科則不可避免���。我個人認為這種說法是正確的�����。
但是�,在20世紀��,不論還有些什么別的特征可能用來區(qū)分物理學(xué)與歷史學(xué)這兩門學(xué)科�,從以下角度加以區(qū)分肯定是不對的:物理學(xué)只是嚴格運用19世紀那個意義上的普遍規(guī)律和演繹性解釋,而歷史學(xué)并非如此���。從1900年以后�����,20世紀的物理研究興趣主要在于某些種類的物質(zhì)個體(粒子)的總計及對這些物質(zhì)個體的解釋以便人們了解這種總計�����。部分地由于物理學(xué)對于微觀世界的統(tǒng)計數(shù)據(jù)的興趣�,同時也由于很多其他相關(guān)原因�,物理學(xué)家們傾向于用方程式來闡述微觀世界的力學(xué)原理,而在這些方程式中�����,有關(guān)概率的概念是最基礎(chǔ)的。
1. c推斷題����。由題干關(guān)鍵詞Karl Pearson定位文章第一段。根據(jù)第二句之后的內(nèi)容����,可立即排除A(流行于每一個研究領(lǐng)域);題干中的According to Karl Pearson相當(dāng)于第四句的According to this View,因此可將答案鎖定在此句�,推斷可知c與其內(nèi)容一致,是正確答案;B(指導(dǎo)事實論據(jù)的搜集和整理)不全面;D中的plausible(似是而非的)是一種不確定的說法�����,不合文意��。
2. D推斷題�。由題干中關(guān)鍵詞Hempel定位第二段第三、四句��,其中的such laws即general laws(普遍規(guī)律)����。選項D概括了這兩句的內(nèi)容��,all cases相當(dāng)于第三句中的universal from(普遍型)���,certain conditions即specified conditions(特定情況)��。A(基于對事實的詳細說明)�����、B(由演繹得出的從屬定律構(gòu)成)兩項指的是explanation;C不全面�,只是指general laws中的一種,即概率型或統(tǒng)計型�����。
3. A推斷題���。題干中的The author feels相當(dāng)于第三段開頭的I think���,故答案應(yīng)在此段之中。A說物理學(xué)和歷史學(xué)有共同特點����,即指此段所說的也same method(同樣的方法)���,故為答案。B(同樣的方法把歷史學(xué)和物理學(xué)混為一談)不合邏輯;C的comparable with(相符的)和D的was inapplicable to(不適用于)皆與句意相悖�。
4. D推斷題。由題干關(guān)鍵詞20m century定位文章最后一段�。文中指出用19世紀的普遍規(guī)律和演繹性解釋來區(qū)分物理學(xué)和歷史學(xué)是不對的。由此可知選項A(普遍規(guī)律不再只屬于物理學(xué))�、B(演繹性解釋在歷史學(xué)中占主導(dǎo)地位)、c(歷史學(xué)和物理學(xué)之間的區(qū)別變得模糊)是對文章的故意曲解;文章末句說����,物理學(xué)家往往用方程式來闡述微觀世界的力學(xué)原理,而方程式的基礎(chǔ)就是概率概念�����,故推斷可知D正確�����。
5. C推斷題��。由題干關(guān)鍵詞physical particles定位最后一段第二�����、三句,其中提到20世紀的物理研究興趣主要在于某些種類的物質(zhì)個體的總計及對這些物質(zhì)個體的解釋以便人們了解這種總計����,由此可知A(統(tǒng)計信息說明人們對總計的興趣)因果顛倒;文中說物理學(xué)家們傾向于用方程式來闡述微觀世界的力學(xué)原理,而在這些方程式中���,有關(guān)概率的概念是最基礎(chǔ)的,言外之意���,微觀世界的描述是以概率的概念為基礎(chǔ)的���,由此可知B(概率的概念由方程式而生)本末倒置,D(物理方程式可以解釋概率理念)因果顛倒���,而c(對其力學(xué)原理的描述基于統(tǒng)計數(shù)據(jù))正確���。
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