| 1. | I still don ' t understand this paint - mixing problem
我还是不懂这种油漆混合问题 |
| 2. | Blow - up of the solution for the mixed problem of some nonlinear wave equations
一类非线性波动方程混合问题解的爆破 |
| 3. | A general solution function extending method for solving mixed problems of wave equation
求解波动方程混合问题的通解函数延拓法 |
| 4. | Finally , the solution formula of the semiboundless mixed problem of the fractional diffusion equation is obtained
最后得到分数阶扩散方程半无界混合问题的求解公式。 |
| 5. | The semiboundless mixed problem of the fractional diffusion equation with the third kind nonhomogeneous boundary condition is studied
摘要研究了一维半无界分数阶扩散方程具有第三类非齐次边条件的混合问题。 |
| 6. | The form solution to the mixed problem of one dimension inhomogeneous diffusion equation was given through the method of undetermined function
摘要利用待定函数法给出了一维非齐次扩散方程混合问题的形式解。 |
| 7. | In this paper , laplace transform is applied to solve a solution of mixed question which satisfies the second boundry condition of the wave equation
摘要本文应用拉普拉斯变换,求出了一个波动方程第二边界条件的混合问题的解。 |
| 8. | The fundamental solution of the mixed problem with the third kind homogeneous boundary condition and that with the zero initial condition are given respectively
分别给出具有第三类齐次边条件的混合问题基本解以及具有零初始条件的混合问题基本解。 |
| 9. | In two - dimensional electrokinetic focusing , a theoretical model based on kirchhoff s current law was derived and applied to predict the width of the electrokinetically focused stream
在三维定常流场混合问题方面,我们以数值模拟方式探讨电渗流在具异质性表面电荷分布之三维微管道中之混合,共有三种不同型态之混合管道被探讨。 |
| 10. | As we know , inverse techniques make blade ' s profile well compatible with its surface velocity distribution , however , they give designers big challenges that the ideal velocity distribution is hard to obtained and sometimes the non - physical solution , such as double covering of flow field or unclosed profiles , would come out . the proposed design procedure in the paper has avoided the disadvantage mentioned above . in this paper , a quasi - irrotational equation is used to describe the flow in cascade instead of the generally used irrotational equation
众所周知,一般的反问题和混合问题的最大特点,是在给定的压力面和吸力面上的压力分布或速度分布条件下,直接得到叶片的几何形状,它可以使叶型型面与表面气流参数有机结起来;其不足之处在于,对设计者而言,很难给定理想的叶片表面压力分布或速度分布,并且有时会得到一个非物理解,如:得出的初始叶型可能会出现前缘、尾缘不封闭的现象。 |
