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It's going to be the same temperature V+dV as before but the volume is V plus dV now.
将升温到跟路径1的结果一样,但是现在的体积是。
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The mind reflects the workings of the brain just like computation reflects the working of a computer.
心理反映了大脑的活动,就像运算结果反映了计算机的运行一样
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So then, just like we saw, analogous to what saw just before, dS/dp it's T dS/dp at constant T.
就像我们看到的,就像我们刚才看到的一样,结果是T乘以恒定温度下的。
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One way or the other it doesn't-- it all comes out to the same thing.
不管是哪种方式,最终结果都是一样的
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We have the same basic structure, the same outcomes, but we imagine people cared about different things and we end up with a very different answer.
博弈的结构,结果都一样,但是人们在乎的东西不同了,所以我们得到了完全不同的答案
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+ 4 and 4 + 3 are the same.
+ 4 和 4 + 3 结果一样
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And then I'm going to do a similar thing to print things out. But would the solver do?
然后我还是一样要把结果输出来,那solver做的是什么呢?
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And this is a little different from what happened ten or so years ago, but the so-called Y2K problem was essentially the result of programmers not really having the foresight to realize, "Maybe we shouldn't use so few bits or so few digits to represent a year because eventually this will be a problem."
这个跟10年前发生的事情有点不一样,那个所谓的“Y2K“问题,本质上的结果是,程序员没有真实地预见和认识到,“可能我们没必要用到这些位数或数字,来表示一年,但是最终这个将会,是个问题“
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How can I see they're the same thing?
为什么说两种算法结果一样呢
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Same qualitative result as before.
定性结果与之前一样。
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The thing is still not dominated and we could still have done exactly the same analysis, and actually you can see I'm not very far off in the numbers I made up, but things are not perfectly symmetric.
这虽然不能成为劣势策略,但我们还是能得出一样的分析结果,实际上这和我编的数字相差也不是很远,凡事并不总是绝对对称的嘛
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