散射是微观粒子相互作用的重要现象。
Scattering is an important phenomenon of microscopic particle's interaction.
微观粒子有波动性。
这个貌视的怪事来自于试图理解微观粒子的运动。
This apparent paradox arises from attempting to understand the motion of microscopic particles.
根据微观粒子的波粒二象性建立起来的量子力学是特殊的物理理论。
Quantum mechanics, which is based upon the special physical postulation, is a special physical theory what was built up according to the concept of dualism of microscopic particles.
实物粒子是指静止质量不为零的微观粒子,如电子、原子和分子等。
The object particle means to the microcosmic particle that its static mass is not zero, for example, electron atom molecule and so on.
不过,我们也可以将微观粒子的引入看成是基本含义上的类比的结果。
We can, however, put the matter as an analogy also in the primary sense.
广义相对论,描述引力与时空的关系;量子力学,研究微观粒子运动规律。
General relativity deals with gravity and time and space; quantum mechanics with the microscopic workings of matter.
本文讨论了量子力学解释中的最基本问题——微观粒子是否真实和客观的存在。
This paper discusses the fundamental problem of the explanation on quantum mechanics-is microscopic particle something real or something existing objectively?
孤子也是一种“微观粒子”,有许多独特的性质,在许多科学领域中获得了重要的应用。
Soliton is also a kind of "micro-particle" with lots of unique characteristics, and it has been applied to mangy fields.
从宏观粒子和微观粒子的输运现象及等离子体化学入手 ,建立了宏观粒子沉降过程中的纯化模型 。
The purification model of macroscopic particles in descending process is established from the transport phenomena of particles and plasma chemicals.
由于这种局域空心光束具有低相干和涡旋的特性,所以在微观粒子的操纵、诱捕和诱导旋转中它能够被应用。
Because such bottle beams possess characteristics of low coherence and vortex, it may be used in microscopic particles guiding, trapping, and inducing rotation.
“月亮在没人看它时是否不存在”问题的哲学论争,实质上涉及到量子测量过程中微观粒子的客观实在性问题。
The essence of the debate of philosophy about "Weather is not the moon there when nobody looks?", involve the objective reality of micro-particles during quantum measure.
“月亮在没人看它时是否不存在”问题的哲学论争,实质上涉及到量子测量过程中微观粒子的客观实在性问题。
The essence of the debate of philosophy about "Weather is not the moon there when nobody looks? ", involve the objective reality of micro-particles during quantum measure.
本文根据量子力学和热力学理论,提出了一种以大量的处在无限深势阱中的微观粒子为工质的量子卡诺制冷循环模型。
Based on quantum mechanics and thermodynamics, a model of Carnot refrigeration cycle is proposed in which the working substance is composed of micro-particles contained in a potential well.
特征长度是衡量经典力学的模型对于微观粒子的描述究竟适用到多大程度,笔者具体计算了电子在均匀电场中的特征长度。
The feature length is to measure the degree in which micro-particle can be described by the model of classical mechanics.
它的最重要的物理意义在于证明了微观物理学中的物理常数以及微观粒子的量子物理特性数值是宇宙总尺度物理特性的反映。
The most significance of this equation is to reveal a close relation between physical constants, quantum properties of elementary particles and general physical properties of the universe.
他们需要将量子力学和相对论这两大物理学理论统一起来——前者是人类对微观粒子运行的描述,而后者则适用于解释宏观的空间、时间和物质相互作用的机制。
They have to stitch quantum theory - our description of how very small things behave - together with relativity - the theory behind the way space, time and matter interact.
他们需要将量子力学和相对论这两大物理学理论统一起来——前者是人类对微观粒子运行的描述,而后者则适用于解释宏观的空间、时间和物质相互作用的机制。
They have to stitch quantum theory - our description of how very small things behave - together with relativity - the theory behind the way space, time and matter interact.
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