yinns639
Newbie level 1
I have to solve a problem for a circular loop antenna, with non uniform current.
I(Φ)=I(1+sinΦ'+sin(2Φ').
Therefore, when i am solving for vector potential,
i will get some form such as
k=wave number a=radius those prime' angle is source angles
∫sin(Φ')cos(Φ-Φ')exp{jkasinΘcos(Φ-Φ')}dΦ'
∫sin(2Φ')cos(Φ-Φ')exp{jkasinΘcos(Φ-Φ')}dΦ'
∫sin(2Φ')sin(Φ-Φ')exp{jkasinΘcos(Φ-Φ')}dΦ'
etc
May i know how to convert this integrals to bessel functions, as normal integration cant solve these?
Pls help, thanks.![Big grin :D :D](data:image/gif;base64,R0lGODlhAQABAIAAAAAAAP///yH5BAEAAAAALAAAAAABAAEAAAIBRAA7)
I(Φ)=I(1+sinΦ'+sin(2Φ').
Therefore, when i am solving for vector potential,
i will get some form such as
k=wave number a=radius those prime' angle is source angles
∫sin(Φ')cos(Φ-Φ')exp{jkasinΘcos(Φ-Φ')}dΦ'
∫sin(2Φ')cos(Φ-Φ')exp{jkasinΘcos(Φ-Φ')}dΦ'
∫sin(2Φ')sin(Φ-Φ')exp{jkasinΘcos(Φ-Φ')}dΦ'
etc
May i know how to convert this integrals to bessel functions, as normal integration cant solve these?
Pls help, thanks.