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 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 :

Read the following text and answer the following questions on the basis of the same: Tuning a radio set: In essence the simplest tuned radio frequency receiver is a simple crystal set. Desired frequency is tuned by a tuned coil/ capacitor combination, and then the signal is presented to a simple crystal or diode detector where the amplitude modulated signal, is demodulated. This is then passed straight to the headphones or speaker. In radio set there is an LC oscillator comprising of a variable capacitor (or sometimes a variable coupling coil), with a knob on the front panel to tune the receiver. Capacitor used in old radio sets is gang capacitor. It consists of two sets of parallel circular plates one of which can rotate manually by means of a knob. The rotation causes overlapping areas of plates to change, thus changing its capacitance. Air gap between plates acts as dielectric. The capacitor has to be tuned in tandem corresponding to the frequency of a station so that the LC combination of the radio set resonates at the frequency of the desired station. When capacitive reactance (X_(C)) is equal to the inductive reactance (X_(L)) , then the resonance occurs 1 and the resonant frequency is given by omega_(0) = (1)/(sqrt(LC)) current amplitude becomes maximum at the resonant frequency. It is important to note that resonance phenomenon is exhibited by a circuit only if both L and C are present in the circuit. Only then do the voltages across L and C cancel each other (both being out of phase) and the Current amplitude is open, (V_(m))/(R) , the total source voltage appearing across R. This means that we cannot have resonance in a RL or RC circuit. Capacitor used in radio set for tuning is a:

Read the following text and answer the following questions on the basis of the same: Tuning a radio set: In essence the simplest tuned radio frequency receiver is a simple crystal set. Desired frequency is tuned by a tuned coil/ capacitor combination, and then the signal is presented to a simple crystal or diode detector where the amplitude modulated signal, is demodulated. This is then passed straight to the headphones or speaker. In radio set there is an LC oscillator comprising of a variable capacitor (or sometimes a variable coupling coil), with a knob on the front panel to tune the receiver. Capacitor used in old radio sets is gang capacitor. It consists of two sets of parallel circular plates one of which can rotate manually by means of a knob. The rotation causes overlapping areas of plates to change, thus changing its capacitance. Air gap between plates acts as dielectric. The capacitor has to be tuned in tandem corresponding to the frequency of a station so that the LC combination of the radio set resonates at the frequency of the desired station. When capacitive reactance (X_(C)) is equal to the inductive reactance (X_(L)) , then the resonance occurs 1 and the resonant frequency is given by omega_(0) = (1)/(sqrt(LC)) current amplitude becomes maximum at the resonant frequency. It is important to note that resonance phenomenon is exhibited by a circuit only if both L and C are present in the circuit. Only then do the voltages across L and C cancel each other (both being out of phase) and the Current amplitude is open, (V_(m))/(R) , the total source voltage appearing across R. This means that we cannot have resonance in a RL or RC circuit. Resonance frequency is equal to:

Read the following text and answer the following questions on the basis of the same: Tuning a radio set: In essence the simplest tuned radio frequency receiver is a simple crystal set. Desired frequency is tuned by a tuned coil/ capacitor combination, and then the signal is presented to a simple crystal or diode detector where the amplitude modulated signal, is demodulated. This is then passed straight to the headphones or speaker. In radio set there is an LC oscillator comprising of a variable capacitor (or sometimes a variable coupling coil), with a knob on the front panel to tune the receiver. Capacitor used in old radio sets is gang capacitor. It consists of two sets of parallel circular plates one of which can rotate manually by means of a knob. The rotation causes overlapping areas of plates to change, thus changing its capacitance. Air gap between plates acts as dielectric. The capacitor has to be tuned in tandem corresponding to the frequency of a station so that the LC combination of the radio set resonates at the frequency of the desired station. When capacitive reactance (X_(C)) is equal to the inductive reactance (X_(L)) , then the resonance occurs 1 and the resonant frequency is given by omega_(0) = (1)/(sqrt(LC)) current amplitude becomes maximum at the resonant frequency. It is important to note that resonance phenomenon is exhibited by a circuit only if both L and C are present in the circuit. Only then do the voltages across L and C cancel each other (both being out of phase) and the Current amplitude is open, (V_(m))/(R) , the total source voltage appearing across R. This means that we cannot have resonance in a RL or RC circuit. Name the phenomenon involved in tuning a radio set to a particular radio station.