keynote:lesson05
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keynote:lesson05 [2010/05/23 19:42] 10921024 |
keynote:lesson05 [2010/05/23 19:44] 10921024 |
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| <jsmath>u(0,x) = f(x),\quad 0<x<a </jsmath> | <jsmath>u(0,x) = f(x),\quad 0<x<a </jsmath> | ||
| <jsmath>u_t(0,x) = g(x), \quad 0<x<a </jsmath> | <jsmath>u_t(0,x) = g(x), \quad 0<x<a </jsmath> | ||
| + | --- //[[1@1|杨学连]] 2010/05/23 19:43// | ||
| ===热传导方程式=== | ===热传导方程式=== | ||
| Line 103: | Line 104: | ||
| ==注意== | ==注意== | ||
| - | 波动方程描述的是能量可转换的情况,而热的传导或扩散是不可逆的过程,古典的变分原理不能应用,但能量守恒定律依然适用,还有一些偏微分方程可以应用质量守恒定律得到,这些都是从物理定律出发得到的偏微分方程,因此,又常常称为数学物理方程。 | + | 波动方程描述的是能量可转换的情况,而热的传导或扩散是不可逆的过程,古典的变分原理不能应用,但能量守恒定律依然适用,还有一些偏微分方程可以应用质量守恒定律得到,这些都是从物理定律出发得到的偏微分方程,因此,又常常称为数学物理方程。\\ |
| - | <note important> Extended by Yang Xuelin(杨学连) </note> | + | --- //[[1@1|杨学连]] 2010/05/23 19:43// |
| =====偏微分方程的求解===== | =====偏微分方程的求解===== | ||
keynote/lesson05.txt · Last modified: 2023/08/19 21:02 (external edit)
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