同样的,第五个方程序,中的速度同样,会随时间改变,因为这是椭圆形轨道。
Also that velocity, v, in that equation number five will also change with time because it's an elliptical orbit.
然而,矩阵也同样能够用来表示数学方程。
文中提出的螺旋运动方程对闭式运动链,即空间机构同样适用。
The screw motion equation presented is also suitable for closed chains, i. e. spatial mechanisms.
等于3。29乘以10的15次方每秒,所以如果你们记得的话,找到的那个方程就是乘以了这个数,by,this,here。,So,,we,found,the,exact,same,equation,所以我们从理解不同能级之间,能量差出发找到了同样的方程。
9 times 10 to the 15 per second. So if you remember what the equation Balmer found was this number multiplied Balmer but just now starting from understanding the difference between energy levels.
计算量采用修正标量位,这样在同样的节点数下相对于矢量位它可以减少联立方程的阶数。
The modified scalar potential is used to reduce the order of the coupled equations in the comparison with the vector potential under the same node number.
在第二部分中,同样的方法,我们讨论了一阶脉冲微分方程积分边值问题。
In part II, by the same way, we consider first-order impulsive differential equations with integral boundary value problems.
此方法同样适用于其他非线性方程,特别对那些带有高次非线性项的方程,该方法具有独特的优点。
The method in this paper can also be applied to other nonlinear equation. For those nonlinear equations with higher order nonlinear terms the method has its extraordinary advantages.
这种方法也同样适用于求解其它非线性波动方程。
It indicates that the method is also suitable for solving other nonlinear evolution equations.
所以这个点(1,2)同样是该方程的解。
同样,用拉氏逆变换,可求出微分方程的解。
At the same time, using the inverse transformation of Laplace to find the solution of differential equation.
第二部分同样用微扰理论来研究滤波器的作用,导出了频域滤波孤子传输系统的脉冲演化方程;
Secondly, we have studied the effect of filters by the use of perturbation theory and derived the evolution equation of the soliton pulse in the presence of sliding frequency.
本章同样使用优级数法讨论一类带时滞的迭代微分方程解析解的存在性。
In this chapter, existence of analytic solutions of an iterative differential equation with state-dependent delays is studied by using a similar method.
用此模型建立裂纹梁运动控制微分方程,这样,对于含裂纹结构可采用与无裂纹时同样的分析方法。
Differential equation of motion control of the cracked beam is set up using this model, so that the same analytical methods are applied as crack-free structure for the cracked.
与原来的方程相比,它增加了一个非线性极强的阻尼项。我们同样用定理1.2介绍过的方法,证明了径向对称解的存在性。
We also use the method in Theorem 1.2 to prove that there exists a smooth 2-dimensional radical symmetric solution for this problem.
首先运用偏微分扩散方程,只需少量的试验运动即可求解在有限作业空间上拥有同样拓扑关系的机器人逆运动学变换。
First a partial differential diffusion equation is applied to solve the inverse map of robots which can keep the topology conserving performance during mapping.
本文提出的反演理论,主要是基于声波波动方程展开讨论和研究的,其研究方法对于弹性波方程和粘弹性波方程同样适应。
The study in the paper is based on acoustic wave equation, but its research methods are also suitable to elastic and viscoelastic wave equation.
这种方法同样也适用于求解具有更高次非线性项的其他非线性波方程。
This method used in the paper can be also be applied to other nonlinear wave equations with higher-order nonlinear terms.
从平面波叠加原理出发,导出与从麦克斯韦方程组出发同样的表达式。
Based on the principle of superposition of plane waves, the same expressions are derived as those based on Maxwell 'e field equations.
论证了在均匀的递进变形过程中,构造标志体惯量投影椭球的变形与其自身的变形保持一致,两者遵循同样的均匀变形方程。
During the progressive uniform deformation, the deformation of the IMP ellipsoid is coincident with that of the structural object. They both follow the same deformation rule.
对于物体的运动方程,同样利用四阶龙格-库塔法进行迭代求解。
As to the motion equations for objects, the fourth-order Runge-Kutta method was employed again for iterative solution.
求解该方程序,导出了具有薄壳理论同样精度的圆锥壳的简化解。
By solving this equation, a simplified solution having the same accuracy as thin walled shell theory for conical shells is derived.
造成电流型观测器估计误差的转子电阻不确定项,在定子电流方程中同样存在。
The uncertain term derived from rotor resistance, that produces the estimation error, appears in both the stator current equation and rotor flux equation.
在自然科学以及技术科学,例如物理,生物学,自动控制,电子技术等等领域中,都提出了大量的微分方程问题,同样在社会科学的一些领域里也存在着微分方程的问题。
In the field of science and technology such as physics, biology, cybernation , electronics and so on, there are plenty of problems described with differential equations, so is sphere of sociology.
在自然科学以及技术科学,例如物理,生物学,自动控制,电子技术等等领域中,都提出了大量的微分方程问题,同样在社会科学的一些领域里也存在着微分方程的问题。
In the field of science and technology such as physics, biology, cybernation , electronics and so on, there are plenty of problems described with differential equations, so is sphere of sociology.
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