2. The equipartition principle is a part of classical physics.
均分原理是经典物理学的一部分。
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3. This is a simple example of the equipartition theorem at work.
这就是均分定理应用的一个简单例子。
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4. Sometimes it's called the classical equipartition of energy theorem.
有时被称为,经典的能量均分定理。
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5. Law of equipartition of energy is proved by the promotion of Boltzmann distribution Law.
通过对玻耳兹曼分布律的推广,从而证明能均分定理。
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6. But what we've found is that in the high temperature limit, we had the equipartition of energy result.
但是我们会发现在高温极限下,我们可以得到能量均分原理。
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7. The energy equipartition time is longer than the interparticle collision time by the mass ratio of proton and electron.
由于质子与电子的质量比很大,能量平衡时间比粒子间碰撞时间长。
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8. In this paper, we study the asymptotic equipartition property (AEP) form order nonhomogeneous Markov information source.
本文研究非齐次m阶马氏信源的渐近均分割性。
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9. The equipartition of energy applied to binary mixture of granular flow is extended to granular flow with non uniform particles.
将适用于两体混合颗粒流的能量均分定理推广到非均匀的复杂混合颗粒流系统。
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10. Theorem of equipartition of energy internal energy of ideal gas. maxwell distribution law of velocity boltzmann distribution law.
能量均分定理,理想气体的内能;麦克斯韦速率分布率;玻尔兹曼分布率。
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11. The elastic collision mechanism of brownian motion is studied and the equipartition of kinetic energy of brownian particle has been proved.
研究了布郎运动的弹性碰撞机制,证明了布郎粒子的能量均分定理。
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12. The elastic collision mechanism of Brownian motion is studied, and the equipartition of kinetic energy of Brownian particle has been proved.
研究了布郎运动的弹性碰撞机制,证明了布郎粒子的能量均分定理。
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13. Raizen's study now proves that the equipartition theorem is true for Brownian particles; in this case, glass beads that were three micrometers across.
现在,Raizen的研究证明了能量均分定理在布朗粒子中的正确性。这时3微米大小的玻璃微粒可以穿过。
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14. The equipartition theorem states that a particles' kinetic energy-the energy it possesses due to motion-is determined only by its temperature, not its size or mass.
能量均分定理是指粒子的动能——即粒子移动具有的能量——只由其温度决定,而非其大小或质量。
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15. There, he expects that equipartition theory will break down, leading to new problems and solutions surrounding the quantum mechanics of small particles composed of many atoms.
16. In some sense, we're closing a door on this problem in physics. But we are actually opening a much larger door for future tests of the equipartition theorem at the quantum level.
17. As corollaries, some asymptotic equipartition property theorems for arbitrary information source, m-order Markov information source, and non-memory information source were obtained.
18. As corollaries, some asymptotic equipartition property theorems for arbitrary information source, m-order Markov information source, and non-memory information source were obtained.
