| 1. | The underlying method is based on the simple wave solutions of a system of hyperbolic partial differential equations .
基本的方法是以双曲型偏微分方程组的简单波解为根据的。 |
| 2. | One good feature about this type is that the blades do not pick up matter carried in the air stream, as curved blades do .
这种叶片型式的优点是它不象曲型叶片那样易于吸聚气流载负的物质。 |
| 3. | Blow - up of solution for a nonlinear hyperbolic equation
一非线性双曲型方程解的爆破 |
| 4. | Parallel algorithm for solving hyperbolio equation
求解双曲型方程的并行算法 |
| 5. | Global solution for some nonlinear hyperbolic equation
一类非线性双曲型方程的整体解 |
| 6. | Ge schemes for hyperbolic equation
双曲型方程的一类分组显示并行算法 |
| 7. | The cauchy problem for a hyperbolic equation of second order
关于一类二阶双曲型微分方程的柯西问题 |
| 8. | Parallel iterative algorithm for solving the cubical equation
求解双曲型方程的隐式差分方程的并行迭代法 |
| 9. | Global existence of solutions to nonlinear hyperbolic equations with viscosity
具粘性双曲型方程组解的整体存在性 |
| 10. | A finite difference parallel iterative algorithm for solving hyperbolic equation
双曲型方程的有限差分并行迭代算法 |
