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    Scientific Theories

    In science， a theory is a reasonable explanation of observed events that are related. A theory often involves an imaginary model that helps scientists picture the way an observed event could be produced. A good example of this is found in the kinetic molecular theory， in which gases are pictured as being made up of many small particles that are in constant motion. A useful theory， in addition to explaining past observations， helps to predict events that have not as yet been observed. After a theory has been publicized， scientists design experiments to test  the theory. If observations confirm the scientists' predictions，  the theory is  supported. If observations do not confirm the predictions， the scientists must search further. There may be a fault in the experiment， or the theory may have to be revised or rejected. Science involves imagination and  creative thinking  as well as collecting  information and performing experiments.    Facts by themselves are not science. As the mathematician Jules Henri Poincare said，"Science is built with facts just as a house is built with bricks， but a collection of facts  cannot  be  called science any more than a pile  of bricks  can  be called  a house." Most scientists start an investigation by finding out what other scientists have learned about a particular problem. After known facts have been gathered， the scientist comes to the part of the investigation that requires considerable imagination. Possible solutions to the problem are formulated. These possible solutions are called hypotheses. In a way， any hypothesis is a leap into the unknown. It extends the scientist's thinking beyond the known facts. The scientist plans experiments， performs calculations， and makes observations to test hypotheses. Without hypothesis， further investigation lacks purpose and direction. When hypotheses are confirmed， they are incorporated into theories.

    全文翻譯：科學(xué)理論

    在科學(xué)中，理論是對(duì)所觀察到的相關(guān)事件的合理解釋。 理論通常包含一個(gè)虛構(gòu)的模型，這個(gè)模型幫助科學(xué)家構(gòu)想所觀察到的事件是如何發(fā)生的。  分子運(yùn)動(dòng)理論便是我們能找到的 一個(gè)很好的例子。 在這個(gè)理論中，氣體被描繪成由許多不斷運(yùn)動(dòng)的小顆粒組成。 一個(gè)有用 的理論，除了能夠解釋過去的觀測(cè)，還有助于預(yù)測(cè)那些未被觀測(cè)到的事件。  一個(gè)理論公開 后，科學(xué)家們?cè)O(shè)計(jì)實(shí)驗(yàn)來檢驗(yàn)這個(gè)理論。 如果觀察證實(shí)了科學(xué)家的預(yù)言，這個(gè)理論則得到 了驗(yàn)證。 如果觀察不能證實(shí)科學(xué)家的預(yù)言，科學(xué)家就必須進(jìn)一步的研究。

    或許是實(shí)驗(yàn)存在 錯(cuò)誤，或許是這個(gè)理論必須被修改或拋棄。  科學(xué)家除了收集信息和操作實(shí)驗(yàn)外還需要想象 能力和創(chuàng)/造性思維。  事實(shí)本身并不是科學(xué)。 正如數(shù)學(xué)家喬斯。亨利。波恩克爾所說："科 學(xué)建立在事實(shí)之上，就像房子用磚砌成一樣。  但事實(shí)的收集不能被稱作科學(xué)，就像一堆磚 不能被叫作房子一樣。

    "多數(shù)科學(xué)家通過找出別的科學(xué)家在一個(gè)特定問題上的所知來開始研 究。在收集了已知事實(shí)之后，科學(xué)家開始了研究中需要相當(dāng)想像力的部分。  他們爾后擬訂對(duì)這個(gè)問題的可行的解決方法。這些可行的解決方式被稱為假設(shè)。  在某種意義上，任何假設(shè)都是向未知的跳躍。它使科學(xué)家的思維超越已知事實(shí)�？茖W(xué)家計(jì)劃實(shí)驗(yàn)、計(jì)算、觀測(cè)以檢 驗(yàn)假定。若沒有假設(shè)，進(jìn)一步的研究便缺乏目的和方向。當(dāng)假設(shè)被證實(shí)了，就成為理論的 一部分。