A sinusiodal voltage of `rms` value `200` volt is connected to the diode and capacitor `C` in the shown so that half wave reactification occurs. The final potential difference in volt across `C` is

A sinusoidal voltage of rms value 200 volt is connected to a diode and a resistor R in the circuit as shown in Fig., so that half wave rectification occurs. If the diode is ideal, what is the rms voltage across R? If resistor R is replaced by capactior of capacitance C, find the potential difference across C.

A sinusoidal voltage of peak value 200 volts is connected to a diode and resistor R in the circuit shown so that half wave rectification occurs. If the forward resistance of the diode is negligible compared to R the rms voltage (in volt) across R is approximately

A sinusoidal voltage of peak value 200 volts is connected to a diode and resistor R in the circuit shown so that half wave rectification occurs. If the forward resistance of the diode is negligible compared to R the rms voltage (in volt) across R is approximately

A sinusoidal voltage of rms value 220 V is applied to a diode and a resistor R in the circuit shown in figure so that half wave rectification occurs. If the diode is ideal, what is the rms voltage across R_1 ?

A sinusoidal voltage of peak value 200 volts is connected to a diode and resistor R in the circuit shown. If diode is idel , the r.m.s voltage across R is . …….. Volt.

A sinusoidal voltage of rms value 100V is connected to an ideal function diode as shown in figure. The final potential difference across the capacitor will be

A d.c. battery of V volt is connected to a series combination of a resistor R and an ideal diode D as shown in the figure below. The potential difference across R will be