It is proved that the substitituon mapping is a proper Fourier integral operator with generalized hypoellipticity.

证明了量替映射是一个具广义亚椭园性适富里积分算子。

By using the method of coordination transformation and expandedness Fourier series, an analytic solution is obtained from studying the Newtonian fluids laminar flow in eccentric anulus.

采用坐标和函展开成傅立级方法,推导出了牛顿流体偏心环空轴向流动速度场严格学解析解.

A relatively direct method is expounded in this paper to prove the termwise differentiation of power series, and a simple method is expressed to calculate the Fourier coefficient.

用比较直接方法证明幂级和函在收敛域内可以逐项微分公式；并得到了计算傅立系一种简便方法.

It is proved that the substitituon mapping is a proper Fourier integral operator with generalized hypoellipticity.

证明了变量替换映射是一个具广义亚椭园性的适的富里积分算子。

By using the method of coordination transformation and expandedness Fourier series, an analytic solution is obtained from studying the Newtonian fluids laminar flow in eccentric anulus.

采用坐标变换和函数展开成傅立级数的方法,推导出了牛顿流体偏心环空轴向流动速度场的严格数学解析解.

A relatively direct method is expounded in this paper to prove the termwise differentiation of power series, and a simple method is expressed to calculate the Fourier coefficient.

用比较直接的方法证明幂级数的和函数在收敛域内可以逐项微分的公式；并得到了计算傅立系数的一种简便方法.

It is proved that the substitituon mapping is a proper Fourier integral operator with generalized hypoellipticity.

证明了量替映是一个具广义亚椭园性的适的富里积分算子。

By using the method of coordination transformation and expandedness Fourier series, an analytic solution is obtained from studying the Newtonian fluids laminar flow in eccentric anulus.

采用坐标和函数展开成傅立级数的方法,推导出了牛顿流体偏心环空轴向流动速度场的严格数学解解.

A relatively direct method is expounded in this paper to prove the termwise differentiation of power series, and a simple method is expressed to calculate the Fourier coefficient.

用比较接的方法证明幂级数的和函数在收敛域内可以逐项微分的公式；并得到了计算傅立系数的一种简便方法.

It is proved that the substitituon mapping is a proper Fourier integral operator with generalized hypoellipticity.

证明了量替映射是一个具广义亚椭园性的适的富里积分算子。

By using the method of coordination transformation and expandedness Fourier series, an analytic solution is obtained from studying the Newtonian fluids laminar flow in eccentric anulus.

采用坐标和函数展开成傅立级数的方法,推导出了牛顿流体偏心环空轴向流动速度场的严格数学解析解.

A relatively direct method is expounded in this paper to prove the termwise differentiation of power series, and a simple method is expressed to calculate the Fourier coefficient.

用比较直接的方法证明幂级数的和函数在收敛域内可以逐微分的公；并得到了计算傅立系数的一种简便方法.

It is proved that the substitituon mapping is a proper Fourier integral operator with generalized hypoellipticity.

了变量替换映射是一个具广亚椭园性的适的富里积分算子。

By using the method of coordination transformation and expandedness Fourier series, an analytic solution is obtained from studying the Newtonian fluids laminar flow in eccentric anulus.

采用坐标变换和函数展开成傅立级数的方法,推导出了牛顿流体偏心环空轴向流动速度场的严格数学解析解.

A relatively direct method is expounded in this paper to prove the termwise differentiation of power series, and a simple method is expressed to calculate the Fourier coefficient.

用比较直接的方法幂级数的和函数在收敛域内可以逐项微分的公式；并得到了计算傅立系数的一种简便方法.

It is proved that the substitituon mapping is a proper Fourier integral operator with generalized hypoellipticity.

证明了量替换映射是一个具广义亚椭园性适富积分算子。

By using the method of coordination transformation and expandedness Fourier series, an analytic solution is obtained from studying the Newtonian fluids laminar flow in eccentric anulus.

采用坐标换函展开成傅立级方法,推导出了牛顿流体偏心环空轴向流动速度场严格学解析解.

A relatively direct method is expounded in this paper to prove the termwise differentiation of power series, and a simple method is expressed to calculate the Fourier coefficient.

用比较直接方法证明幂级函在收敛域内可以逐项微分公式；并得到了计算傅立系一种简便方法.

It is proved that the substitituon mapping is a proper Fourier integral operator with generalized hypoellipticity.

证明了变量替换映射是一个具广义亚椭园性适富里积算子。

By using the method of coordination transformation and expandedness Fourier series, an analytic solution is obtained from studying the Newtonian fluids laminar flow in eccentric anulus.

采用坐标变换和函数展开成傅立级数方法,推导出了牛顿流体偏心环空轴向流动速度场严格数学解解.

A relatively direct method is expounded in this paper to prove the termwise differentiation of power series, and a simple method is expressed to calculate the Fourier coefficient.

用比较接方法证明幂级数和函数在收敛域内可以逐项微公式；并得到了计算傅立系数一种简便方法.

It is proved that the substitituon mapping is a proper Fourier integral operator with generalized hypoellipticity.

证明了变量替换映射是一个具广亚椭园性的适的富分算子。

By using the method of coordination transformation and expandedness Fourier series, an analytic solution is obtained from studying the Newtonian fluids laminar flow in eccentric anulus.

采用坐标变换和函数展开成傅立级数的方法,推导出了牛顿流体偏心环空轴向流动速度场的严格数学解析解.

A relatively direct method is expounded in this paper to prove the termwise differentiation of power series, and a simple method is expressed to calculate the Fourier coefficient.

用比较直接的方法证明幂级数的和函数在收敛域内可以逐项微分的公式；并得到了计算傅立系数的一种简便方法.

It is proved that the substitituon mapping is a proper Fourier integral operator with generalized hypoellipticity.

证明了变量替换映射是一个具广义亚椭园性适富积分算子。

By using the method of coordination transformation and expandedness Fourier series, an analytic solution is obtained from studying the Newtonian fluids laminar flow in eccentric anulus.

采用坐标变换和函数展开成傅立级数方法,推导出了牛顿流体偏心环空轴向流动速度场严格数学解析解.

A relatively direct method is expounded in this paper to prove the termwise differentiation of power series, and a simple method is expressed to calculate the Fourier coefficient.

用比较直接方法证明幂级数和函数在收敛域内可以逐项微分公式；并得到了计算傅立系数一种简便方法.