Resistance of an ideal

Assertion : In the circuit shown in figure ammeter and voltmeter are non-ideal when positions of ammeter and voltmeter are changed, reading of ammeter will increase while of voltmeter will decrease. Reason : Resistance of an ideal ammeter is zero while that of an ideal voltmeter is infinite.

The reading of the ideal ammeter will be (Resistance of ideal ammeters is zero)

An ideal ammeter (zero resistance) and an ideal voltmeter (infinite resistance) are connect as shows in Fig. 6.47 . The ammeter and the voltmeter readings are

Statement A : The resistance of ideal ammeter is zero Statement B : The resistance of ideal voltmeter is infinity Choose the correct option among the following.

A charged capacitor of unknown capacitance is connected in series with 100kOmega resistance and an ideal ammeter. The initial current in the circuit is found to be 0.2mA and the current after 7 sec is found to be 0.1mA. The potential energy that was stored in the capacitor before it was connected in the circuit is ______mJ. [Take log_(2)2=0.7 ]

A conductor is being charged by connecting it in series with a resistance and an ideal battery. The battery supplies energy at a rate u(t), the thermal energy of the resistor Increases at a rate Ur(t) and the capacitor stores energy at a rate U_(c)(t) .What can be concluded about the relationship between U_(R)(t) and U_(c)(t) at different stages of charging of condenser.

A sinusoidal voltage of amplitude 25 volts and frequency 50 Hz is applied to a half wave rectifier using PN diode. No filter is used and the load resistor is 1000 Omega . The forward resistance R_(f) ideal diode is 10 Omega . Calculate. (i) Peak, average and rms values of load current (ii) d.c power output (ii) a.c power input (iv) % Rectifier efficiency (v) Ripple factor.

An ideal resistance R, ideal inductance L , ideal capacitance C and AC voltmeters underset(1)(V) , underset(2)(V) , underset(3)(V) and underset(4)(V) are connected to an AC source as shown . At resonance

Consider the junction diode is ideal. The value of current through the resistance of 200 Omega is

Consider the junction diode is ideal. The value of current through the resistance of 300 Omega is