| 1. | The correlation covers a broad range of test materials .
这一相互关系式包含有范围广泛的实验材料。 |
| 2. | We derive the relations between physical and tensor components .
我们推导物理分量和张量分量之间的关系式。 |
| 3. | Some features of the nucleon structure emerges from these relations .
从这些关系式中暴露出核子结构的某些特征。 |
| 4. | The distribution coefficient equation is still valid for any value of n .
对任一级n,分配系数关系式仍然是成立的。 |
| 5. | The empirical relations are quite arbitrary and sometimes inadequate .
经验的关系式完全是人为的,有时是不适当的。 |
| 6. | Unless these conditions are complied with, weight relationship are meaningless .
如果不遵循这些条件,重量关系式就没有意义。 |
| 7. | This derivation is only valid if no chain scission accompanies cross linking .
这一关系式仅适用于交联时不伴有断链发生的情况。 |
| 8. | This relationship, expressed by the simple equation 1. 7, is a trivial one .
它由很简单的(17)式表示,是一个很普通的关系式。 |
| 9. | Finally we compare the derived expressions with the results of experimental studies .
最后,我们将推寻出来的关系式和实验结果进行比较。 |
| 10. | The equations of equilibrium and kinematic relations are independent of the type of material .
平衡方程和运动学关系式是与材料类无关的。 |
