也许最后当东方赶上西方的时候,历史给我们上的一课就是——牛顿和梅文鼎究竟谁是经典力学之父已经没有那么重要了。
Perhaps the real lesson of history is that by the time the east overtakes the west, it will no longer matter much that Newton, and not Mei, was the father of classical physics.
那么最后为什么故事的结局是牛顿发现了经典力学,而不是梅文鼎?
So how did we end up with a world where Newton, not Mei, founded classical physics?
牛顿发现万有引力定律,建立了经典力学,他用一个公式将宇宙中最大天体的运动和最小粒子的运动统一起来。
Newton discovers gravitational theory, built up classic mechanics, he USES a formula the biggest ephemeris sport in the cosmos and minimum grain sport of the son unify.
于是将自己的数学知识牛顿是经典力学理论的集大成者。
So their mathematical knowledge of Newton's theory of classical mechanics is the synthesizer.
牛顿的经典力学与爱因斯坦的相对论,实质上是从不同的角度分别描述了时间这一概念的两个方面:绝对性和相对性。
In Newton's book-The Classical Mechanics and Einstein's book named The Theory of Relativity, they describle the two sides of the conception of time in different angles: absolutism and relativitism.
很难想象没有微积分,牛顿能够发现经典力学。微积分的发现要追溯到阿基米德。
It is difficult to imagine that Newton can develop classical mechanics without the great language of calculus whose development can be traced back to Archimedes.
很难想象没有微积分,牛顿能够发现经典力学。微积分的发现要追溯到阿基米德。
It is difficult to imagine that Newton can develop classical mechanics without the great language of calculus whose development can be traced back to Archimedes.
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