Sinusoidal peak potential is 200 volt with frequency 50Hz. It is represented by the equation –

The household supply voltage as measured by an a.c. voltmeter is 200 meter is 220 volts. If the frequency of a.c. Supply is 50 Hz, then the equation of the line voltage, will be

Using an A.C. voltmeter, the Peak potential difference in the electrical line in a house is read to be 234 volts. If the line frequency is known to be 50 cycles per second, the equation for the line voltage is

A sinusoidal voltage of peak value 293 V and frequency 50 Hz is applie to a series LCR circuit in which R=6 Omega, L=25 mH and C=750mu F . The impedance of the circuit is

A sinusoidal voltage of peak value 283 V and frequency 50 Hz is applied to a series LCR circuit in which R = 3 Omega, L = 25.48 mH , and C = 796 mu F . Find the impdedance of the circuit.

An alternating emf given by V = V_(0) sin omegat has peak value 10 volt and freguency 50 Hz The instantaneous emf at .

A sinusoidal voltage of peak value 283 V and frequency 50 Hz is applied to a series LCR circuit in which R = 3 Omega, L = 25.48 mH, and C = 796 mu F, then the power dissipated at the resonant condition will be-

.A sinusoidal voltage of peak value "283V" and frequency 50Hz is applied to a series LCR circuit in which R=3Omegaa L=25.48mH and C=796 muF .The power factor is

A sinusoidal carrier voltage of 80 "volts" amplitude and 1MHz frequency is amplitude modulated by a sinusoidal voltage of frequency 5 kHz producing 50% modulation. Calculate the amplitude and frequency of lower and upper side bands.

Sinusoidal carrier voltage of frequency 1.5 MHz and amplitude 50V is amplitude modulated by sinusoidal voltage of frequency 10kHz producing 50% modualtion. The lower and upper side-band frequencies in kHz are