Classical mechanics is a beautiful subject.
经典力学是一门充满魅力的学科。
One of three basic laws of classical mechanics.
经典力学的三个基本定律之一。
Human movement is a classical mechanics scope of the study.
人体的运动也属于古典力学研究的范围。
Newton's law of motion forms the foundation of classical mechanics.
牛顿的运动定律构成传统力学的基础。
If I've got classical mechanics, then that means it's vibrational energy.
如果我有经典力学,那意味着它的振动能。
That never happens in classical mechanics, because there are always levels there.
这在经典力学中绝不会发生,因为那总是有能级。
Therefore, the mechanics, the principle is still used to solve classical mechanics.
所以,有关力学问题,仍然用古典力学的原则来解决。
In the limit of large quantum Numbers quantum mechanics goes over into classical mechanics.
在大量子数的极限情况下,从量子力学过渡到经典力学。
So their mathematical knowledge of Newton's theory of classical mechanics is the synthesizer.
于是将自己的数学知识牛顿是经典力学理论的集大成者。
These phenomenas can be expressed in classical mechanics. Everything seemed to be reasonable.
这些现象规律都可以用古典力学的公式表达出来,一切似乎都合乎情理。
Two problems in classical mechanics have withstood several centuries of mathematical endeavor.
在经典力学中的两个问题都经受住了几个世纪数学的努力。
Quantum mechanics and relativity have revealed the boundaries of validity of classical mechanics.
量子力学和相对论,揭示了经典力学的适用范围。
Quantum mechanics and relativity have revealed the boundaries of validity of classical mechanics .
量子力学和相对论,揭示了经典力学的适用范围。
Quantum mechanics and relativity have revealed the boundaries of validity of classical mechanics.
相对论量子力学的新的表述形式。
Quantum mechanics showed classical mechanics to be incorrect for describing the internal motions within atoms.
量子力学证明,用经典力学描述原子内部的运动也不正确。
This paper discuses on ten foundational problems of soft rock engineering whickare different from classical mechanics.
探讨了软岩工程力学十个方面的不同于经典力学的基本问题。
Also according to the characteristics of classical mechanics into mechanics, relativity and quantum mechanics mechanics.
力学按其特点又分为古典力学、相对论力学和量子力学。
The feature length is to measure the degree in which micro-particle can be described by the model of classical mechanics.
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。
Newton law is the basis of classical mechanics, the study of movement speed far less than the speed of light macro object;
古典力学是以牛顿定律为基础,研究运动速度远小于光速的宏观物体的运动;
When we usually discuss the projectile motion problems we usually neglect the rotation of the earth in classical mechanics.
针对经典力学中忽略地球自转来处理抛体运动的问题,考虑地球自转的影响,建立了抛体运动的动力学方程。
The permanent electric dipole moment (PEDM) of hydrogen atom is calculated in classical mechanics and double-wave mechanics.
用经典力学和双波量子力学计算了氢原子的固有电偶极矩。
The First Quantum Machine : Until this year, all human-made objects have moved according to the laws of classical mechanics.
在今年之前,所有的人造物体的移动都遵循经典力学的法则。
The origin of the quantum chaos come from the consideration of the quantum counterpart of dynamical chaos in classical mechanics.
量子混沌的起源来自对经典混沌的量子对应的考虑。
The classical mechanics and double-wave quantum mechanics could definitively describe single particles action, and the calculations and explanations to.
用经典力学和双波量子力学计算了氢原子的固有电偶极矩。
This is often expressed by saying that in case of large quantum numbers quantum mechanics "reduces" to classical mechanics and classical electromagnetism .
通常可以表示为大量子数目情形下量子力学“减少”到经典力学和经典电磁学。
According to classical mechanics and DE Broglie theory, this paper USES quadruplicate equation theory, and deduces the energy spectrum of conical pendulum.
根据经典力学和德布罗意理论,运用四次方程理论,推出了圆锥摆的能谱。
Quantum mechanics and relativity established by Einstein have challenged and revealed the boundaries of validity of classical mechanics proposed by Newton.
爱因斯坦的量子力学挑战了牛顿的理论力学。
The Bohr theory, with its strong flavor of elementary classical mechanics, formed an important bridge between classical physics and present-day atomic theory.
玻尔理论具有强烈的初等古典力学的气味,这就构成了古典物理和近代原子理论间的一座重要的桥梁。
It is difficult to imagine that Newton can develop classical mechanics without the great language of calculus whose development can be traced back to Archimedes.
很难想象没有微积分,牛顿能够发现经典力学。微积分的发现要追溯到阿基米德。
It is difficult to imagine that Newton can develop classical mechanics without the great language of calculus whose development can be traced back to Archimedes.
很难想象没有微积分,牛顿能够发现经典力学。微积分的发现要追溯到阿基米德。
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