根本不需洛伦兹变换来描述相对论。
There is no need to Lorentz transformations to describe the theory of relativity.
一种是直接根据洛伦兹变换所得出的解析法;
One is analytic method based on the Lorentz's transformation.
下面,我们借助于洛伦兹变换来讨论其中的几个结果。
We shall discuss several of them below with the help of the Lorentz transformation.
评论了仅仅依据光速不变假设和相对性原理推导洛伦兹变换公式的方法。
The derivation methods of Lorentz transformation according to invariance of light speed and principle of relativity are commented.
在洛伦兹变换的基础上,由于光速的有限值,对视觉效应考虑两方面的修正。
On the basis of Lorentz transformation, correction must be made on visual effect in two aspects, because the value of the light velocity is finite.
文章提出要彻底否定洛伦兹变换而建立时空运动说,摆脱目前相对论的困惑处境。
Article moved to completely deny the Lorentz transformation and establish time and space movement theory, get rid of the present situation of relativistic puzzles.
并根据约定,从狭义相对论的两条基本假设出发,严格地推导出了洛伦兹变换式。
According to the arrangement of s and s' systems, beginning with the two basic hypotheses of special relativity, Lorentz transformation is deduced strictly.
结果表明:用并矢分析与并矢场论可以简洁且严密地证明洛伦兹变换下电动力学的不变量。
This paper shows that dyadic theory is a brief and strict method to prove the invariance of the electrodynamics under Lorentz transformation.
应用狭义相对论研讨电磁场基本定律,由库仑定律和洛伦兹变换推导出毕奥—萨伐尔定律。
This paper studies electromagnetic's basic law through the special theory of relativity. It has inferred Biot-Savart Law by Coulomb Law and Lorent z Transformation.
设计了一个简单的思想实验,用动量定理对洛伦兹变换成立的条件导出了相对论质量公式。
Based on the theorem of momentum, the mass equation of special relativity is derived using a simple thought experiment.
利用洛伦兹变换导出了相对论性的多普勒颇移的普遍公式,并且讨论了波源的超音速运动情况。
A general formula of relativistic Doppler shift is obtained from Lorentz transformation, and the supersonic motion is discussed as well.
研究表明,物理学中最普遍的坐标变换并不是洛伦兹变换,洛伦兹变换的不变性原理没有普遍意义。
It is shown that the most popular coordinate transformation method is not Lorenz transformation, whose principle of no change has no universal meaning.
描述电磁现象的场量在不同的惯性系中有不同的量值,利用洛伦兹变换关系式导出它们之间的变换形式。
We can describe quantities of electric magnetic field in different inertia system, and use Lorentz transformations to educe the transformations between them.
本文从数学和物理学的角度分析、讨论了洛伦兹变换的两个重要性质,即“时空对称性”和“时空相对性” 。
The two important characteristics of Lorentz transformation are discussed from the viewpoints of mathematics and physics, which are the time space symmetry and the time space relativity.
证明了时间坐标的洛伦兹变换是两个时间的和:一个与时间膨胀有关,另一个与光子从光源到接收器的飞行时间的相对性有关。
The Lorentz transfer of time coordinates is the sum of two times, one related to time expansion and the other to the relativity of photon's flight time from the radiant to the receiver.
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.
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.
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