Calculate the energy stored in the capacitor of capacitance `2muf`. The voltmeter gives a reading of 15 V and the ammeter A reads `15mA` .

Find the energy stored in a capacitor of capacitance 100muF when it is charged to a potential difference of 20 V.

A voltmeter and an ammeter are connected in series to an ideal cell of emf E . The voltmeter reading is V , and the ammeter readings is I . Then (i) V lt E (ii) the voltmeter resistance is V// I (iii) the potential difference across the ammeter is E - V (iv) Voltmeter resistance + ammeter resistance = E//I Correct statements are

In the circuit shown, the reading of the voltmeter and the ammeter are

Consider the following network of capacitors. The capacitances are marked in the figure. If emnergy stored in the capacitor of capacitance 6muF is E, then what will be the total amount of energy stored in the system?

In the given circuit the readings of the voltmeter V_(1) and the ammeter A are .

A student connects a voltmeters, ammeter and resistance according to the circuit given. If the voltmeter reading is 20V and ammeter reading is 4A, then the resistance will be

An ammeter A, a voltmeter V and a resistance R are connected as shown in the figure. If the voltmeter reading is 1.6V and the ammeter reading is 0.4 A, then R is

A students connects an ammeter A and a voltmeter V to measure a resistancer as shown in figure. If the voltmeter reads 20 V and the ammeter reads 4A , then R is

A circuit is shown in the figure. The ratio of readings of ideal voltmeter to reading of ideal ammeter is