伽利略在当时,提出惯性定律,他的观点是这样的。
It was Galileo who expressed what he called the law of inertia and I will read you his law.
这些趋势难道和牛顿的惯性定律不是很相仿吗?
Are these trends not comparable with Newton's law of inertia?
幸福这东西,一点不符合牛顿的惯性定律,总是在滑行得最流畅的时候戛然而止。
Happiness is something, a bit does not accord with Newton's law of inertia, is always at a time when most smooth glide abruptly.
不过,我们可以想象,无论用这种方法或用惯性定律为基础的其他类似方法,这总是能做到的。
We can, nevertheless, well imagine having done it in this, or in some similar way, based upon the application of the law of inertia.
非但没有违反惯性定律,动物们在行走、奔跑、躲闪、跳跃、飞行、捕食或逃生中,将惯性定律的优势充分发挥。
Far from violating the laws of motion, animals exploit them to their advantage as they walk, run, dodge and jink, leap and fly, pounce on prey or spring to safety.
本文提出了惯性定律的新表述法,从能量转移的观点来理解惯性定律,从而把自然科学置于惯性定律的基石上。
In this paper, we cast a new light on the inertial law, and in the view of energy transfer. the natural science can be build on the base of inertial law.
根据惯性定律,一个物体一旦运动,在受外力作用之前永远不会停止运动;同样,一个静止的物体在受到外力之前,永远不会自行开始运动。
According to the law of inertia, a body once in motion will never stop till a force compels it, nor will a body at rest start to move of its own accord.
根据惯性定律,一个物体一旦运动,在受外力作用之前永远不会停止运动;同样,一个静止的物体在受到外力之前,永远不会自行开始运动。
According to the law of inertia, a body once in motion will never stop till a force compels it, nor will a body at rest start to move of its own accord.
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