1·The remaining boundary condition leads to a transcendental equation.
剩下的一个边值条件导致一个超越方程。
2·The complex transcendental equation will be usually encountered in measuring material permittivity.
测量复介电常数时通常会得到一个复超越方程。
3·It is necessary for evaluating dielectric constant of rocks to find the solution of a transcendental equation.
为了求得岩石的介电常数和耗损角,需要根据测量数据求解超越方程。
4·A transcendental equation is used to determine the vibration frequency with given materials and plate thicknesses.
经过给定层状薄膜板的资料常数和厚度,我们可以从频率方程中求解出其振动频率。
5·The differential phase shift changes as the change in the thickness of the ferrite phase shifter is calculated with the transcendental equation.
根据超越方程对单环非互易铁氧体移相器的差相移随铁氧体厚度的变化进行了数值计算。
6·The differential phase shift changes as the change in the thickness of the ferrite phase shifter is calculated with the transcendental equation.
利用双平板模型推导出了单环非互易铁氧体移相器的超越方程,并对其特性进行了讨论。
7·Transcendental equation and parameters of ferrite materials prepared by ourself have been used to calculate the variation of differential phase with temperature.
再利用超越方程和我们制备的铁氧体材料的参数对其差相移随温度的变化进行数值计算,结果表明随温度的升高差相移减小。
8·The transcendental equation for the single toroidal non-reciprocal ferrite phase shifter is obtained by using the twin slab model, and its properties are discussed.
利用双平板模型推导出了单环非互易铁氧体移相器的超越方程,并对其特性进行了讨论。
9·The transcendental equation for ferrite phase shifters in rectangular wave guide has been obtained by applying twin slab model, Maxwell equations and boundary conditions.
首先利用双平板模型、麦氏方程组和边界条件推导矩形波导铁氧体移相器的超越方程。