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- Elementary Solution of Coupled Harmonic Oscillator 耦合谐振子的初等求解
- coupled harmonic oscillator system 耦合谐振子系统
- n-D coupling harmonic oscillator n模耦合谐振子
- 2D double coupling harmonic oscillator 双模双耦合谐振子
- Double module double coupling harmonic oscillator 双模双耦合谐振子
- two- dimensional coupled harmonic oscillators 二维耦合量子谐振子
- coupled harmonic oscillator 耦合谐振子系
- No atom behaves precisely like a classical harmonic oscillator. 任何一个原子的性能都不会同经典谐振子完全相同。
- The Exact Solution of the Energy Spectrum of Double Module Double Coupling Harmonic Oscillator 一般双模双耦合谐振子能谱的精确解
- For a harmonic oscillator the energy levels are evenly spaced. 对谐振子来说,能级是等间隔的。
- Solution of accurate energy eigenvalues of the common double coupled harmonic oscillators via transformation of representations 利用表象变换精确求解最一般双耦合谐振子的能量本征值
- Energy Eigenvalue of the Double Dimension Coupling Harmonic Oscillator Was Solved Accurately by Transformation of Coordinates 利用坐标变换精确求解二维耦合谐振子的能量本征值
- We can work out positions of a harmonic oscillator by numerical methods. 我们可以按数值方法计算简谐振子的位置。
- Thus far we have negative frictional effects in the harmonic oscillator. 到现在为止,我们一直没有考虑谐振子中的摩擦效应。
- Thus far we have negated frictional effects in the harmonic oscillator. 到现在为止,我们一直没有考虑谐和振荡器中的摩擦效应。
- coupling harmonic oscillator 耦合谐振子
- The case of a harmonic oscillator driven by sinusoidally varying force is an extremely important one in many branches. 在许多领域中受正弦变化力策动的谐振子是一种十分重要的运动。
- The harmonic oscillator is an exceptionally important example of periodic motion. 谐振子在周期运动中是特别重要的。
- two-dimensional coupled quantum harmonic oscillator 二维耦合量子谐振子
- In this section we will increase our quantum-mechanical repertoire by solving the Schroedinger equation for the one-dimensional harmonic oscillator. 本节我们将用求解一维谐振子的薛定谔方程以提高我们的量子力学技能。
