轨道稳定
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... orbital repeater 轨道中继站 orbital stability 轨道稳定* order wire 传号线 ...
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... 轨道卫星 orbiter; orbiting satellite 轨道稳定 orbitally stable 轨道稳定性 track stability ...
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orbital stability - 引用次数:10
We study the orbital stability problem of the peaked solitons to the special case of the DGH equation in the H~1 norm in section 4.
我们知道一类特殊的DGH方程有尖峰孤立波解,我们将证明此尖峰孤立波在H~1范数中是轨道稳定的。
参考来源 - 一类浅水波方程的研究 -
orbitally stable - 引用次数:1 参考来源 - 带调和势的非线性Schr(?)dinger方程
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双语例句原声例句
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等的抽象理论,通过谱分析,证明了该孤立波解是轨道稳定的。
By using the abstract results of M. Grillakis et al and careful spectral analysis, we prove that the stability of the solitary waves is orbital.
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本章的主要结果:定理4 .1孤立波族(4.1.3)是轨道稳定的。
The main result in this chapter: Theorem 4.1 The solitary waves (4.1.3) are orbitally stable.
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问题是,只有曾穿过黑洞视界的临界才会存在稳定轨道,那里时间与空间会流入其他地方。
The problem is that these stable orbits would only exist once you have crossed the threshold of the event horizon, where time and space flow into one another.
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Remember that when we're talking about 4s1, 3d10, that's one of those exceptions where a completely filled d orbital is more stable than we would expect.
回想上节课的内容我们知道,当我们讨论4s1,3d10,的时候,这是其中一个例外的情况,当,d,轨道全满的时候,电子排布要比我们想象的更加稳定。
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The reason this an exception is because it turns out that half filled d orbitals are more stable than we could even predict.
这个例外的原因是因为,半填充d轨道比,我们预期的填充方式更加稳定。
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And there's actually a way that we can make predictions here, and what I'll tell you is molecular orbital theory predicts that h e 2 does not exist because it's not stabilized in terms of forming the molecule.
其实我们有一种办法可以做出预测,我要告诉你们的是分子轨道,理论预测He2不存在,因为它形成分子不稳定。
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