The tuned circuit of an oscillator in a simple `AM` transimitter employs a `40muH` coil and `12` nanofarad (`nF`) capacitor. If the oscillator ouput os modulated by audio frequency of `5 kHz`, which of the following frequencies doesn't appear in the output `AM`?

The tuned circuit the Oscillator in a simple AM transmitter employs a 50mu H coil and a 1 nF capacitor. If the oscillator output is modulated by audio frequencies up to 10m kHz calculate the range occupied by the side bands.

The tuned circuit the Oscillator in a simple AM transmitter employs a 50mu H coil and a 1 nF capacitor. If the oscillator output is modulated by audio frequencies up to 10m kHz calculate the range occupied by the side bands.

The tuned circuit of an oscillator in a simple AM transimitter employs a 250 micro henry coil and 1 nf condenser. If the oscillartor output is modulated by audio frequency upto 10KHz , the frequency range occupied by the side bands in KHz is

In a simple AM transmitter, the tuned circuit uses a coil of 40muH and a shunt capacitor of 1 n F. If the oscillator output is modulated by audio frequencies upto 5kHz, what is the frequency range occupied by side bands?

The carrier frequency of a transmitter is provided by a tank circuit of a coil of inductance 49 muH and a capacitance of 2.5 nF It is modulated by an audio signal of 12 kHz The frequency range occupied by the side bands is :

The carrier frequency of a transmitter is provided by a tank circuit of a coil of inductance 49 muH and a capacitance of 2.5 nF It is modulated by an audio signal of 12 kHz The frequency range occupied by the side bands is :

A radio can tune over the frequency range of a portion of MW broadcast band: (800 kHz to 1200 kHz). If its LC circuit has an effective inductance of 200muH , what must be the range of its variable capacitor? (Hint: For tuning, the natural frequency i.e., the frequency of free oscillations of the LC circuit should be equal to the frequency of the radio wave.]