计算表明分布在一个相当大范围的电子可以在真空中被加速到相对论能量。
The calculation shows that electrons distributed on a large scale can be accelerated to relativistic energy in vacuum.
本文从单粒子模型出发,导出了考虑相对论能量因子一级扰动量影响的色散方程。
In this paper, on the basis of a single-particle model, the dispersion equation is obtained after considering the first perturbation term of relativistic energy factor.
粒子物理学理论预言暗能量的强度要比观测到的大约大120个数量级,而广义相对论不能解释这个巨大的差异。
The theories of particle physics predict the strength of dark energy to be about 120 orders of magnitude larger than what is observed, and general relativity cannot explain this enormous discrepancy.
如果他的理论正确,那么在低能量下它看起来像广义相对论。
If his theory works, then at low energies it should look like general relativity.
这种方法可以使相对论和量子理论相和谐,前者可以解释信息处理过程怎样创造空间——时间,后者可以解释信息处理怎样创造能量和物质。
Such an approach could reconcile relativity and quantum theories, with the former being how information processing creates space-time, and the latter how it creates energy and matter.
能量是以快速非相对论性粒子的形式由类星体注入空间的。
Energy is injected into space by quasars in the form of fast, nonrelativistic particles.
本文从爱因斯坦速度变换式、相对论中的牛顿第二定律及普遍的能量守恒定律导出质点组的动量守恒定律。
In this paper, the conservation law of momentum is derived from Einstein's transformation law of velocities, Newton's second law in relativity and general conservation law of energy.
相对论表明,质量与任何物质都毫无关系,它只是一种能量形式。
Relativity theory showed that mass has nothing to do with any substance, but is a form energy.
在广义相对论的框架之下,科学家们已经分别建立了称为暗物质和暗能量的概念来处理这些问题。
Within the framework of general relativity, scientists have invented concepts called dark matter and dark energy, respectively, to deal with these problems.
利用洛伦兹变换,画出了相对论下二体反应实验室系和动心系出射粒子动量的关系图,并利用关系图,对不同情况下的出射粒子能量分布作了讨论。
Using Lorentz transformation, a momentum vectors diagram of the emitted particle in laboratory frame and center-of-momentum frame is given in relativistic two-body reaction.
就在这同一年,他发表了举世瞩目的四篇论文,光电效应,布朗运动,狭义相对论,以及物质与能量的等效。 还有一说是他发表了五篇文章,这应该包括他的博士论文了。 由此,他开始了他的学术之路。
In the same year, he publishedfour famous papers, on the photoelectric effect, Brownian motion, special relativity, and the equivalence of matter and energy, which put him on the road toacademic fame.
得到了广义相对论加速电荷的电磁场的严格表达式,并计算了它的能量辐射。
Based on the previous paper, for accelerating charge in general relativity, we obtained the exact expressions of electromagnetic field and radiating energy.
本文将闭壳层体系的近似关系式,应用于计算原子开壳层体系非相对论的总电子能量。
An approximate relationship is applied to calculate nonrelativistic total electronic energies of atomic open shell systems.
计算了等离子体介质中,沿弯曲螺旋线运动的相对论电子的辐射谱,进一步导出了真空中的能量辐射公式。
The radiation spectrum for relativistic electron moving along curved spiral curve in plasmas is calculated, and also the formula of total energy emitted by a relativistic electron in vacua is derived.
相对论和其他一些新的理论形成了一门新的学科,叫做“量子物理学”,这一学科是物质,能量,光和所有的物质的基础——原子的复杂研究。
It was this, as well as many other theories that led to the birth of a new science called "Quantum Physics", the complex study of matter, energy, light and the bases of all life - the atom.
第二十一章的相对论性力学主要限于强调能量和动量的概念。
The relativistic mechanics in chapter 21 is circumscribed with primary emphasis on the concepts of energy and momentum.
这种孤子波的形成及其演化与离子运动有极大关系。用相对论强激光脉冲可以产生达到相对论振幅的电磁场孤子波,后者可以把离子加速到非常高的能量。
The formed solitons are usually found to move with small velocity, which results in the formation of plasma cavities and the acceleration of ions to high energy.
通过单个光子的能量-动量四维矢量变换,导出了辐射热量的相对论关系,所得的结果再一次证实了相对论热力学的P_E理论。
The relativistic relation of radiant heat was educed by transforming energy-momentum 4-vector of a single photon. The elicited results make sure P-E theory of relativistic thermodynamics once again.
在理论上推导出负能量粒子具有正质量并在相对论框架内得到与正能系统不同的时空变换关系的基础上,证明了这个时空理论是逻辑一致的。
Through the time and space match relation of source rock, transform pathway and trap, showed that Xing'anling group trap located over the source.
在理论上推导出负能量粒子具有正质量并在相对论框架内得到与正能系统不同的时空变换关系的基础上,证明了这个时空理论是逻辑一致的。
Through the time and space match relation of source rock, transform pathway and trap, showed that Xing'anling group trap located over the source.
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