我把这个写成方程的形式。
本文首次探讨了对弹性波在传播过程中的反射和波型转换有任制作用的弹性波方程的形式。
Several approximate elastic wave equations in which reflection and conversionare weaker than in accurate ones are first discussed in the paper.
模型可以写成矩阵方程的形式,在特定情况下模型简化为没有固相析出的并流多效蒸发模型。
The model can be expressed in matrix equation. The model of cocurrent multi effect evaporation with no solid separation is a simplified example of the new model.
首先将非线性薛定谔方程变形为齐次方程的形式,然后用精细积分法模拟其随时间的演化过程。
First of all, a non-linear Schrodinger equation can be converted into homogeneous equations, and then the precise integration method can be used to solve these problems.
该方程的形式规则统一,计算过程简单,稍加改进可以推广到平面刚架的内力和变形计算中去。
The equation is simple, uniform and easy to extend to plane rigid frame with some modification.
当单调函数的反函数不能显性表示时,连续型随机变量的分布密度曲线仍可通过参数方程的形式获得。
When a inverse function of monotone function can not show the explicit formula, the distribution density curve of continuous randon variable can be gained with a parametric equation.
然后,在公差数学定义理论的基础,基于要素的自由度分析,采用不等式约束方程的形式建立各公差带的数学模型。
Then in the foundation of tolerance mathematical definition theory, each tolerance zone's mathematical model was established by inequality based on degrees of feature.
推导结果表明,此时离散方程的形式仍与纯导热物体的形式相同,只是界面上的辐射热流以源项的形式进入到离散方程中。
The discretization equation obtained takes the same form as that for the pure conduction problem, with the radiation heat flux at the interface appearing as an additional source term.
可以采用原型、数学方程或者交互式图表的形式。
This can take the form of prototypes, mathematical equations, or interaction diagrams.
这个方程,把它的空间形式写下来。
It is the equation — Well, let me write for you the space version of it.
这与温度有一点点关系,这是积分形式的范特霍夫方程。
dT And this could be slightly temperature dependent. dT And this is the integrated van 't Hoff equation.
所以你经常能看到这种形式的方程。
如果我想非常小心,因为这是个很大的温度范围,甚至可以使用,范特霍夫方程的严格形式。
And if I want to be super careful, because it's a fairly large temperature range, I can even use the exact form of the van 't Hoff equation.
方程式的形式相同。
一些技术分析指标可以以一个方程或算法的形式量化。
Some technical analysis indicators can be quantified in the form of an equation or algorithm.
麦克斯韦方程组用矢量的形式重新表示,并利用狭义相对论你的对称性。
Slide-shows original equations, then equations re-written as vector analysis, then using the symmetry of special relativity.
事实上,代入这些之后,通常可以得到这种形式的值,有时候是t加上一个常数,因为这是你代入平面方程的。
So, in fact, you know, when you plug in these things, normally you get a quantity that's of a form, something times t plus a constant because that's what you plug into the equation of a plane.
水平面上的方程,都是z等于某个常数的形式,等等。,z,equals,zero,z,equals,one,,z,equals,two,,and,so,on。,函数的图像,在那里就是这样的表现。
So, horizontal planes have equations of a form z equals some constant, z=0 z=1 z=2 So, maybe the graph of my function will be some sort of plot out there.
当我们将它带入方程时我们,只用它的数字,在那里是假定的。,the,e,is,assumed,there。,所以我们来想想如果在一个氦原子中,有两个以两种极端形式被屏蔽的电子,我们会得到什么。
When we plug it into equations we just use the number, e So, let's think of what we could have if we have two electrons in a helium atom that are shielded in two extreme ways.
这种形式的方程是新的。
随机问题的输出方程还是取方程(1-46)所给定的那种形式。
Response equations for stochastic problems are again taken to be those given in(1-46).
弹性力学基本方程正确的弱形式将是有限元分析的基础。
The correct weak form of basic equations in elasticity is the foundation of finite element analysis.
导出了关于混合模的耦合边界积分方程组及其退化形式,并用矩量法将之离散为齐次代数方程组,从而得波导的混合模传输常数;
The coupled boundary integral equations and their reduced forms are deduced for hybrid mode problems, and these equations are discreted into a system of linear algebraic equations by moment method.
所得计算修正本征值的方程形式上与过去的结果颇为不同。
The equation for calculating the corrected eigenvalues is obtained in a quite different form.
泛函网络是类似于人工神经网络的新型网络模型,是泛函方程的网络表达形式。
Functional network is new network model. It is similar to artificial neural network and is network expression of functional equation.
推导了界面上具有耦合传热时的控制体离散方程序,界面上的辐射热流以附加源项的形式出现在离散方程中。
The discretion equation was derived for the control volume with conjugate heat transfer at its interface, with the radiation heat flux at the interface appearing as an additional source term.
研究完整力学系统准坐标表示的运动微分方程在群的无限小变换下的形式不变性。
The paper studies the form invariance of differential equations of motion for holonomic systems in terms of quasi coordinates, under the infinitesimal transformations of groups.
本文运用叠加原理,从麦克斯韦方程的积分形式出发推导出在交变电磁场中储藏在电容器中的电场能量,并且指出了决定电容器电容数值的因素。
The energy of electric field stored in the capacitor placed in an alternating electromagnatic field is concluded by using the principle of superposition and by starting with Maxwell equations.
本文运用叠加原理,从麦克斯韦方程的积分形式出发推导出在交变电磁场中储藏在电容器中的电场能量,并且指出了决定电容器电容数值的因素。
The energy of electric field stored in the capacitor placed in an alternating electromagnatic field is concluded by using the principle of superposition and by starting with Maxwell equations.
应用推荐