classical physics
英 [ˈklæsɪkl ˈfɪzɪks]
美 [ˈklæsɪkl ˈfɪzɪks]
网络 经典物理学; 经典物理; 經典物理學; 古典物理; 古典派的物理学
双语例句
- Similarly, einstein's theories of relativity completed the era of classical physics and paved the way for atomic physics and its ambiguities.
同样,爱因斯坦相对论理论终结了经典物理学时代,为原子物理学和不确定性的物理观的建立铺平了道路。 - We must look for a new equation to replace those of classical physics.
我们必须寻求一个新方程来取代经典物理学的方程。 - Quantum mechanics is such a rain forest of a theory, filled with indescribably weird animals and endlessly explorable backwaters, that seeking to reduce it to classical physics seems like trying to grow the Amazon from a rock garden.
量子力学就像是一座雨林,充满无法形诸笔墨的珍奇动物以及无数有待探索的偏僻水域,要将它归纳入古典物理之中,就好比试图在一座光秃秃的岩石公园中种植出亚马逊森林。 - In certain situations, the laws of classical physics approximate the laws of quantum mechanics to a high degree of precision.
在某种情形里,达到很高精确度时候经典物理法则接近量子力学法则。 - The equipartition principle is a part of classical physics.
均分原理是经典物理学的一部分。 - The elephant depends on its sense of smell to keep it ire touch with what is going on. These are related to classical physics largely through probability.
大象依靠嗅觉使自己与外界发生的事保持联系。这些是与经典物理学很大程度上靠概率有联系。 - In classical physics, the mass of an object had always been associated with an indestructible material substance, with some "stuff" of which all things were thought to be made.
在古典物理中,某一物体的质量总是与一种不可毁灭的物质相关联。这是一种构成一切物质的“东西”。 - A fundamental principle of classical physics that matter cannot be created or destroyed in an isolated system.
一个孤立系统的物质不生不灭的基本经典物理原理。 - As mentioned in the introduction, there are several classes of phenomena that appear under quantum mechanics which have no analogue in classical physics.
如以上介绍中提到的那样,有好几种现象好象处于量子力学中,在经典物理里没有对等情况。 - Classical physics of the19th and early20th centuries was more than simply "pre-modern";
19世纪和20世纪早期的经典物理学不仅仅是〈现代的前身〉; - For this brief paper, you should analyze what was "classical" about "classical physics," drawing on sources from the readings as well as from lectures.
在这篇简短论文中,你要从读物及课堂内容中分析“经典物理”中的“经典”是什麽。 - I can't explain this because classical physics doesn't work at atomic dimensions.
我不能解释这个,因为经典物理在不适用,就原子尺度而言。 - But quantum and classical physics are based on very different conceptions of physical reality.
但是量子理论和经典理论基于完全不同的物理现实观念。 - Just as bits are ideal objects abstracted from the principles of classical physics, qubits are ideal quantum objects abstracted from the principles of quantum mechanics.
位元是从古典物理原则中抽取出的理想物体,同样地,量子位元是从量子力学原理抽取出的理想量子物体。 - Those variables for which it holds ( e.g., momentum and position, or energy and time) are canonically conjugate variables in classical physics.
那些具有的变量(如动量与位置,或能量与时间)是经典力学里的正则共轭变量。 - These are related to classical physics largely through probability.
这些是与经典物理学很大程度上靠概率有联系。 - Combining the known results in mechanics and relativity, the unified four-dimensional generalized formalism of various equations and formulas in classical physics and quantum mechanics are discussed.
结合力学和相对论中的已知结果,讨论了经典物理和量子力学中的各种方程、公式统一的四维广义形式。 - Using the magnetic potential, Faraday Law of Electromagnetic Induction is expanded, represented and analyzed in the conditions of classical physics.
在经典物理的条件下展开并用磁势表达和分析了法拉第电磁感应定律; - The article discusses how to calculate density of particle's state of energy in the statistical physics by classical physics and quantum mechanics, and analyzes results of two ways by relativistic quantum mechanics.
本文从经典物理和量子力学的角度讨论了统计物理中粒子能态密度的计算方法,并从相对论量子力学角度分析了两种情况下的计算结果。 - The phase problem of classical physics and quantum mechanics are reviewed, then geometrical Berry's phase and how to perform its teaching in quantum physics are discussed.
回顾了经典物理和量子力学中的相位问题,着重讨论了量子几何Berry相位及在量子力学中如何进行量子相位教学的问题。 - In classical physics, the energy density is non-negative.
在经典物理学中,能量密度是正定的。 - In classical physics, the diamagnetic effect is approached on the supposition that the electron orbit radius remains unchanged.
经典物理学是在假设电子轨道半径不变的情况下研究抗磁效应的。 - Through the induction of the definite linear thinking method in classical physics and the manifestation in physical content and physical education, the limitation of this method is explained clearly.
通过归纳经典物理学的确定性线性思维方法及其在物理内容和物理教育中的表现,说明线性思维方法的局限性; - Mass-Models with nonlocality are contrary to the causality-law and Relativity Theory in Classical Physics and Quantum Physics.
古典物理学与量子场论的非定域质量模型都违反相对论与因果律; - Quantum entanglement is a unique phenomenon to quantum mechanics and the most peculiar features different from the classical physics.
量子纠缠是量子力学特有的现象,是量子力学不同于经典物理最奇特最不可思议的特征。 - Utilizing quantum entanglement, we can accomplish the impossible tasks in the frame of classical physics.
量子纠缠是量子力学最重要的精华内容之一,应用量子纠缠人们可以完成经典物理所不能完成的工作。 - Both our daily language and classical physics are based on this cognitive model.
日常语言和经典物理学都是建立在这种认知模式之上的。 - Quantum entanglement is the most exotic and the most incredible feature where quantum mechanics is different from classical physics.
量子纠缠是量子力学不同于经典物理科学最特殊、最不可捉摸的特征。 - And the storage cylinders gas supply UAV catapult system as the research object, establishes a theoretical model of the system, according to the principles of classical physics and the resistance network mathematical model of the system is established.
并以贮气瓶供气无人机弹射器系统为研究对象,建立了该系统的理论研究模型,根据经典物理学原理和气阻网络的特点建立了该系统的数学模型。 - After half a century, it is recognized that quantum entangled states can exhibit nonlocal relations which can not be explained by classical physics.
经历了大半个世纪的努力,人们认识到量子纠缠态能展现出经典物理所不能解释的非定域性关联。