我首先计算-,在你们的参照组中,你们所坐的地方-,失去了多少能量,这是完全非弹性碰撞。
So I will first calculate-- in your frame of reference, - where you are sitting-- how much energy is lost when we have a completely inelastic collision.
它们粘在一起,这是完全非弹性碰撞。
They get stuck together because it's a completely inelastic collision.
我们失去了动能,这是完全非弹性碰撞。
We lose kinetic energy when there is a completely inelastic collision.
在这个例子中,它是完全非弹性碰撞,我们上节课也看到了,我们失去了动能,它可能转化为热量。
And in the case of the completely inelastic collisions that we have seen last time, we lost kinetic energy, which was converted to heat.
我们将有两辆车。,现在是完全非弹性碰撞。
And we will have two cars that... Now we're going completely inelastic.
好,上节课,我们只讲了,完全非弹性碰撞。
All right, last time we talked exclusively about completely inelastic collisions.
我开始计时,用和原来一样的方法,只是我现在做的是,完全非弹性碰撞。
And so now I will do the timing in exactly the same way that I did before, except that now I have a completely inelastic collision.
若它们没粘在一起。,这不是完全非弹性碰撞。
If they don't stick, of course, then it's... it's not a completely inelastic collision.
在非弹性碰撞中,总是失去动能,能否在一次碰撞中,动能增加?
我们现在回到26。,我们将要实现一个,完全非弹性碰撞。
So now we are back in 26.100, and we're going to make a completely inelastic collision.
动量守恒,可以写下2,这是完全-,非弹性碰撞。
Momentum is conserved, so I can m1*v1+ write down that m1 times v1 plus m2 - it is a completely inelastic collision-- *v times v prime.
在巨分子云聚合形成过程中,一般都包括了分子云间的非弹性碰撞与分子云间的自引力。
The inelastic collision between clouds and the self -gravitation among clouds are included in the aggregation formation of GMCs.
光电子之间的非弹性碰撞使它们原来获得的能量在整个电离气体中迅速分配。
Inelastic collisions among photoelectrons rapidly distribute their initially gained energy throughout the region of ionized gas.
计算结果表明颗粒间非弹性碰撞和气固间曳力的增大均使气固两相流动的非均匀性增大。
The results show that the stronger the particle-particle collisional dissipation and gas-solid drag force, the more heterogeneous the flow structure.
必须记住,动量守恒甚至对于非弹性碰撞也是成立的,尽管这时动能已不守恒。
It is important to realize that momentum conservation applies even to inelastic collisions, in which the kinetic energy is not conserved.
本文对减小气垫导轨实验的系统误差,实现完全非弹性碰撞问题进行了探讨。
Decrease the system error on the airtrack experiment and realize the full inelastic collision on the airtrack.
计算了电子的密度分布,电子与中性粒子的非弹性碰撞速率,以及电子能量和电子通量分布等。
The electron density, the electron -neutral inelastic collision rates, the electron energy and the electron flux distribution are calculated.
非弹性、弹性或刚体间无滑移的碰撞可以用此方法自动处理而不必求助于特殊的算法。
No-slip impact between bodies, inelastic, elastic, or rigid, is handled automatically by the method without resorting to a special contact algorithm.
对于牛顿球之间的非弹性碰撞实验进行分析和讨论,其结果既体现牛顿定理的应用,又对工程中许多非弹性碰撞问题的研究具有指导作用。
The experiments of non-elastic collision between the Newton's balls are carried out with its results discussed, by which many problems of non-elastic collision in engineering could be guided.
突破了关于完全非弹性碰撞的一种思维定势,引入了两种赝恢复系数。
A thinking orientation on the completely inelastic collision is broken out. Two kinds of the coefficient of pseudo-restitution are drawn.
通过弹性和非弹性的碰撞,发射纵波光学声子,半导体中发生准。
Thequasi equilibrium relaxation occurs via elastic and inelastic scattering and the emission of longitudinal optical phonon.
这些伸展构造很显然是扬子克拉通和华北克拉通在三叠纪碰撞时,大别山造山带前陆位置岩石圈弯曲导致地壳上部产生非弹性变形的结果。
Such structure in the collision foredeep of the Dabieshan Orogen was resulted in inelastic extensional deformation of the conver side of the flexed plate aroused by lithospheric flexure.
对于0 0 0 2的非弹性碰撞入射原子约化质量增大,大角散射几率增大。
For 00 02 inelastic collision, scattering at the large Angle keep pace with the increase of reduce mass of incident atom.
利用物理仿真实验室软件对非对心碰撞、超弹性碰撞、牛顿摆等碰撞实验进行了模拟和分析,为碰撞问题的研究和教学提供了有效的方法。
In this article, non-central collision, superball and Newton′s cradle are analyzed with the virtual experiment which is a useful way of collision′s analyzing and teaching.
提出完全弹性碰撞和完全非弹性碰撞情况下冲击能测量原理。
A measurement method of impact energy is proposed for the situations of perfect elastic collision and completely inelastic collision.
提出完全弹性碰撞和完全非弹性碰撞情况下冲击能测量原理。
A measurement method of impact energy is proposed for the situations of perfect elastic collision and completely inelastic collision.
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