A transmitter transmits at a wavelength of `300 m`. A condenser of capacitance `2.4 muF` is being used. The value of the inductance for the resonant circuit is approximately

A transmitter transmits at a wavelength of 300 m. A condenser of capacitance 2.4 (mu)F is being used. The value of the inductance for the resonant circuit is approximatly

A transmitter transmits at a wavelength of 30 meter. A condenser or capacitance 2.4 muF is being used. The value of the inductance for the resonant circuit is approximately.

An electromagnetic wave of wavelength 300 metere canbe transmitted by a transmission centre. A condenser of capacity 2.5 muF is available. Calculate the inductance of the required coil for a resonant circuit. Use pi^(2)=10 .

An electro magnetic wave of wavelength 300 metre can be transmitted by a transmission centre. A condenser of capacity 2.5muF is available. Calculate the inductance of the required coil for a resonant circuit.Use pi^(2)=10 .

A radio wave of wavelength 290 m can be transmitted through a transmission centre . If a condenser of capacity 3.5 muF is used what is the inductance of the required coil for resonance . Take speed of light = 3xx10^(8) m/s .

A transmitter operates at 1 MHz. The oscillating circuit has a capacitance of 200 pF. What is the inductance and capacitative reactance of the resonant circuit ?

A transmitting station transmits radiowave of wavelength 360 m. What is the inductance of a coil required with a condenser of capacity 1.20 mu F in the resonant circuit to receive the radiowaves ? ( Use pi^2 =10)

A radio transmitter at position A operates at a wavelength of 20 m . A second , identical transmitter is located at a distance x from the first transmitter , at position B . The transmitters are phase locked together such that the second transmitter is lagging pi//2 out of phase with the first . For which of the following values of BC - CA will the intensity at C be maximum .

A wave of wavelength 300 m is to be radiated through a transmitter. You are given a capacitor of 2.5 muF . What should be the value of the inductance of the coil required to produce the oscillatory circuit? [Take pi^(2)=10 ]