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Superb face expression 🙈🤪
Thank u sir 😊
Bahut hi attractive person ho sir aap looking good 👍😁
thank you so much for these videos sir, very helpful and easy to understand. Isn't V antennas also an important topic of module 4?
Understood ☺️👍
Really glad to hear that Fathima!! 😄
Thank u sir it's quite easy to understand
Happy to hear that! Do share it with your friends as well!!
Rishi sir….Wonderful class sir…..Really useful sir….May God bless you sir…..❤️
Thank you one of my first students!! 😝❤️
Super sir
Sir, in the syllabus each of these antennas require the expression for E, H & gain without derivation.
Yes no derivation required just the expression
Is the secondary reflector in this antenna concave or convex?
Hey Shilpa!! Briefly answering your query here : The secondary reflector here is a hyperbola which diverges the incident rays onto the primary reflector which is a parabola!! Hence, it is a convex reflector!!
Superb face expression 🙈🤪
Thank u sir 😊
Bahut hi attractive person ho sir aap looking good 👍😁
thank you so much for these videos sir, very helpful and easy to understand. Isn't V antennas also an important topic of module 4?
Understood ☺️👍
Really glad to hear that Fathima!! 😄
Thank u sir it's quite easy to understand
Happy to hear that! Do share it with your friends as well!!
Rishi sir….
Wonderful class sir…..
Really useful sir….
May God bless you sir…..❤️
Thank you one of my first students!! 😝❤️
Super sir
Sir, in the syllabus each of these antennas require the expression for E, H & gain without derivation.
Yes no derivation required just the expression
Is the secondary reflector in this antenna concave or convex?
Hey Shilpa!!
Briefly answering your query here :
The secondary reflector here is a hyperbola which diverges the incident rays onto the primary reflector which is a parabola!!
Hence, it is a convex reflector!!