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[科技] 科学家:四条黄金忠告

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    奋斗
    2022-2-8 01:13
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    发表于 2013-8-21 03:09:41 | 只看该作者 回帖奖励 |倒序浏览 |阅读模式
    本帖最后由 不爱吱声 于 2013-8-20 13:11 编辑

    科学家:四条黄金忠告 [梳枝/译,原文wxy466提供]
        
    Steven Weinberg 现在得克萨斯大学物理系。本文以他 2003年6月在麦克基尔大学科学大会上的讲话为基础。
        
      当我得到大学学位的时候 - 那是百八十年前的事了 -物理文献在我眼里就象一个未经探索的汪洋大海,我必须在勘测了它的每一个部分之后才能开始自己的研究。做任何事情之前怎么能不先了解所有已经做过了的工作呢?万幸的是,在我做研究生的第一年,我碰到了一些资深的物理学家,他们不顾我忧心忡忡的反对,坚持我应该开始进行研究,而在研究的过程中学习所需的东西。这可是生死悠关的事。我惊讶地发现他们的意见是可行的。我设法很快就拿到了一个博士学位- 虽然我拿到博士学位时对物理学还几乎是一无所知。不过,我的确得到了一个很大的教益:没有人了解所有的知识,你也不必
        
      另一个忠告就是,如果继续用我的海洋学的比喻的话,当你在大海中搏击而不是沉没时,应该到波涛汹涌的地方去。19世纪60年代末,我在麻省理工大学教书时,一个学生找我说,他想去做广义相对论领域的研究,而不愿意做我所在的领域-基本粒子物理学-方向的研究,原因是前者的原理已经很清楚,而后者在他看来则是一团乱麻。而在我看来这正是做相反决定的绝好理由。粒子物理学是一个还可以做创造性工作的领域。它在那个时候的确是乱麻一团,但是,从那时起,许多理论物理学家、试验物理学家的工作把这团乱麻梳理出来,将所有的(嗯,几乎所有的)知识纳入一个叫做标准模型的美丽的理论之中。我的忠告是:到混乱的地方去,那里才是行动所在的地方。
        
      我的第三个忠告可能是最难被接受的。这就是要原谅自己虚掷时光。要求学生们解决的问题都是教授们知道可以得到解决的问题(除非教授非常地残酷)。而且,这些问题在科学上是否重要是无关紧要的,-必须解决他们以通过考试。但是在现实生活中,知道哪些问题重要是非常困难的,而且在历史某一特定时刻你根本无从知道某个问题是否有解。二十世纪初,几个重要的物理学家,包括 Lorentz 和 Abraham, 想创立一种电子理论。部分原因是为了理解为什么探测地球相对以太运动的所有尝试都失败了。我们现在知道,他们研究的问题不对。在当时,没有人能够创立一个成功的电子理论,因为量子力学尚未发现。需要到1905年,天才的爱因斯坦认识到正确的问题是运动在时间空间测量上的效应。沿着这条路线,他创立了相对论。因为你总也不能肯定哪个才是要研究的正确问题,你在实验室里,在书桌前的大部分时间是会虚掷的。如果你想要有创制性,你就必须习惯于大量时间不是创造性的,习惯于在科学知识的海洋上停滞不前。
        
      最后,学一点科学史,起码你所研究的学科的历史。至少学习科学史可能在你自己的科学研究中有点用。比如,科学家会不时因相信从培根到库恩、玻普这些哲学家所提出的过分简化的科学模型而受到桎梏。科学史的知识是科学哲学的最好解毒剂。
        
      更重要的是,科学史的知识可以使你觉得自己的工作更有意义。作为一个科学家,你很可能不会太富裕,你的朋友和亲人可能也不理解你正在做的事情。而如果你研究的是象基本粒子物理学这样的领域,你甚至没有是在从事一种马上就有用的工作所带来的满足。但是,认识到你进行的科学工作是历史的一部分则可以给你带来极大的满足。
        
      看看100年前,1903年。谁是1903年大英帝国的首相、谁是1903年美利坚合众国的总统在现在看来有多重要呢?真正凸现出重要性的是1903年Ernest Rutherford 和Frederick Soddy 在McGill 大学揭示了放射性的本质。这一工作(当然!)有实际的应用,但更加重要的是其文化含义。对放射性的理解使物理学家能够解释为什么几百万年以后太阳和地心仍是滚烫的。这样,就清除了许多地质学家和古生物学家认为地球和太阳存在了很长年代的最后一个科学上的障碍。从此以后,基督教徒和犹太教徒就不得不或者放弃圣经的直接真理性或者放弃理性。这只是从加利略到牛顿、达尔文,直到现在削弱宗教教条主义桎梏的一系列步伐中的一步。只要读读今天的任何一张报纸,你都会知道这一工作还没有完成。但是,这是一个文明化的工作,对这一工作科学家是可以感到骄傲的。

    -------------------------------------------------
    原文:

    Nature 426, 389 (27 November 2003); doi:10.1038/426389a
      
      
      Scientist: Four golden lessons
      
      STEVEN WEINBERG
      
      Steven Weinberg is in the Department of Physics, the University of Texas at Austin, Texas 78712, USA. This essay is based on a commencement talk given by the author at the Science Convocation at McGill University in June 2003.
      
      When I received my undergraduate degree ― about a hundred years ago ― the physics literature seemed to me a vast, unexplored ocean, every part of which I had to chart before beginning any research of my own. How could I do anything without knowing everything that had already been done? Fortunately, in my first year of graduate school, I had the good luck to fall into the hands of senior physicists who insisted, over my anxious objections, that I must start doing research, and pick up what I needed to know as I went along. It was sink or swim. To my surprise, I found that this works. I managed to get a quick PhD ― though when I got it I knew almost nothing about physics. But I did learn one big thing: that no one knows everything, and you don‘t have to.
      
      Another lesson to be learned, to continue using my oceanographic metaphor, is that while you are swimming and not sinking you should aim for rough water. When I was teaching at the Massachusetts Institute of Technology in the late 1960s, a student told me that he wanted to go into general relativity rather than the area I was working on, elementary particle physics, because the principles of the former were well known, while the latter seemed like a mess to him. It struck me that he had just given a perfectly good reason for doing the opposite. Particle physics was an area where creative work could still be done. It really was a mess in the 1960s, but since that time the work of many theoretical and experimental physicists has been able to sort it out, and put everything (well, almost everything) together in a beautiful theory known as the standard model. My advice is to go for the messes ― that‘s where the action is.
      
      My third piece of advice is probably the hardest to take. It is to forgive yourself for wasting time. Students are only asked to solve problems that their professors (unless unusually cruel) know to be solvable. In addition, it doesn‘t matter if the problems are scientifically important ― they have to be solved to pass the course. But in the real world, it‘s very hard to know which problems are important, and you never know whether at a given moment in history a problem is solvable. At the beginning of the twentieth century, several leading physicists, including Lorentz and Abraham, were trying to work out a theory of the electron. This was partly in order to understand why all attempts to detect effects of Earth‘s motion through the ether had failed. We now know that they were working on the wrong problem. At that time, no one could have developed a successful theory of the electron, because quantum mechanics had not yet been discovered. It took the genius of Albert Einstein in 1905 to realize that the right problem on which to work was the effect of motion on measurements of space and time. This led him to the special theory of relativity. As you will never be sure which are the right problems to work on, most of the time that you spend in the laboratory or at your desk will be wasted. If you want to be creative, then you will have to get used to spending most of your time not being creative, to being becalmed on the ocean of scientific knowledge.
      
      Finally, learn something about the history of science, or at a minimum the history of your own branch of science. The least important reason for this is that the history may actually be of some use to you in your own scientific work. For instance, now and then scientists are hampered by believing one of the over-simplified models of science that have been proposed by philosophers from Francis Bacon to Thomas Kuhn and Karl Popper. The best antidote to the philosophy of science is a knowledge of the history of science.
      
      More importantly, the history of science can make your work seem more worthwhile to you. As a scientist, you‘re probably not going to get rich. Your friends and relatives probably won‘t understand what you‘re doing. And if you work in a field like elementary particle physics, you won‘t even have the satisfaction of doing something that is immediately useful. But you can get great satisfaction by recognizing that your work in science is a part of history.
      
      Look back 100 years, to 1903. How important is it now who was Prime Minister of Great Britain in 1903, or President of the United States? What stands out as really important is that at McGill University, Ernest Rutherford and Frederick Soddy were working out the nature of radioactivity. This work (of course!) had practical applications, but much more important were its cultural implications. The understanding of radioactivity allowed physicists to explain how the Sun and Earth‘s cores could still be hot after millions of years. In this way, it removed the last scientific objection to what many geologists and paleontologists thought was the great age of the Earth and the Sun. After this, Christians and Jews either had to give up belief in the literal truth of the Bible or resign themselves to intellectual irrelevance. This was just one step in a sequence of steps from Galileo through Newton and Darwin to the present that, time after time, has weakened the hold of religious dogmatism. Reading any newspaper nowadays is enough to show you that this work is not yet complete. But it is civilizing work, of which scientists are able to feel proud.

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    沙发
    发表于 2013-8-21 04:05:37 | 只看该作者
    科学史的知识是科学哲学的最好解毒剂。

    看来物理学家还是改不了鄙视哲学家的职业病

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