An ideal diode is connected in a circuit with resistance `R=5Omega` and `V=10` volt as shown in figure maximum and minimum value of output voltage. When no load applied is (assume diode to be ideal)

An ideal diode is connected in a circuit with resistance R=50Omega and V=10V . If an AC input signal shown in the figure is given to the circuit, then the maximum and minimum value of output voltage (without load) is

Five identical lamps each of resistance R = 1500 Omega are connected to 300 V as shown in figure . The reading of ideal ammeter A is

What is the value of output voltage V_(0) in the circuit shown in the figure ?

In the circuit shown, the average power dissipated in the resistor is (assume diode to be ideal)

Two ideal diodes D_(1) and D_(2) are connected with the battery of 5 volt as shown in figure. Then the current through diode D_(1) is

Take the breakdown voltage of the zener diode used in the given circuit as 6V. For the input voltage shown in figure below , the time variation of the output voltage is : (Graphs drawn are schematic and not to scale )

What is an ideal diode ? Draw the output waveform across the load resistor R, If the wavelength is as shown in the figure.

An ideal cell of emf 10 V is connected in circuit shown in figure. Each resistance is 2 Omega . The potential difference (in V) across the capacitor when it is fully charged is _______.

A 10 V battery of negilgible internal resistance is connected across a 200V battery and a resistance of 38 Omega as shown in figure. . Find the value of current in the circuit.

An ac source of voltage V=V_(m)sin omega t is connected across the resistance R as shown in figure. The phase relation between current and voltage for this circuit is