A carrier signal `C(t)=25 sin(2.512xx10^(10)t)` is amplitude modulated by a message signal `m(t)=5 sin(1.57 xx 10^(8)t)` and transmitted through an antenna. What will be the bandwidth of the modulated signal ?

In amplitude modulation, the message signal V_(m)(t)=10sin(2pixx10^(5)t) volts and Carrier signal V_(C )(t)=20sin(2pixx10^(7)t) volts The modulated signal now contains the message signal with lower side band and upper side band frequency, therefore the bandwidth of modulated signal is alpha KHz. The value of alpha is

If a message signal of frequency ' f_(m) ' is amplitude modulated with a carrier signal of frequency ' f_(c) ' and radiated through an antenna, the wavelength of the corresponding signal in air is :

A carrier wave c(t)=A_(c) sin omega_(c) t is amplitude modulated by a modulating signal m(t)=A_(m) sin omega_(m) t . The maximum and minimum amplitudes are found to be 16 V and 4 V , respectively. Calculate the modulation index.

For an amplitude modulated wave message signal peak voltage = 20V carrier signal peak voltage = 20V. What is modulated index.

A 500 KHz carrier wave is amplitude modulated by an audio signal of frequency span of 200 Hz to 4000 Hz. What is the bandwidth of the channel?

If a carrier wave c(t)=A sin omega_(c)t is amplitude modulated by a modulator signal m(t)=A sin omega_(m)t then the equation of modulated signal [C_(m)(t)] and its modulation index are respectively

An audio signal represented as 25 sin 2pi ( 2000 t) amplitude modulated by a carrier wave : 60 sin 2pi (100,000)t . The modulation index of the modulated signal is

A audio signal 15sin2pi(1500t) amplitude modulates 60sin2pi(10^(5))t . The depth of modulation is

A audio signal 20sin2pi(1500t) amplitude modulates 40sin2pi(10^(5))t . The depth of modulation is

Equation of messages signal m = 2 sin omega_(m)(t) and carrier signal c = 4 sin omega_(C)(t) . The equation of modulating signal will be