In figure when key is pressed the ammeter A reads `i` ampere . The charge passing in the galvanometer circuit of total resistance R is Q . The mutual inductance of the two coils is

The figure shows a circuit. When the circuit is switched on, the ammeter reads 0.5A. Calculate the charge passing through the 3Omega resistor in 120 s.

In the circuit shown in figure, the current is to measured. What is the value of the current if the ammeter shown (i) is a galvanometer with a resistance R_G=60*00Omega . (ii) is a galvanometer described in (i) but converted to an ammeter by a shunt resistance r_s=0*02Omega , (iii) is an ideal ammeter with zero resistance?

A galvanometer (coil resistance 99 Omega .) is converted into an ammeter using a shunt of 1 Omega and connected as shown in figure (a). The ammeter reads 3 A . The same galvanometer is convened into a voltmeter by connecting a resistance of 101 Omega in series. This voltmeter is connected at, shown in figure (b). Its reading is found to be 4/5 of the full scale reading. Find : (a) internal resistance r of the cell (b) range of the ammeter and voltmeter (c) full scale deflection current of the galvanometer.

The figure shows a circuit. When the circuit is switched on, the ammeter reads 0.5A. Calculate the value of the unknown resistor R.

Two coils X and Y are placed in a circuit such that when the current changes by 2 A in coil X. The magnetic flux changes by 0.4 Wb in Y. The value of mutual inductance of the coils is

A thin circular ring of area A is held perpendicular to a uniform magnetic field of induction B. A small cut is made in the ring and a galvanometer is connected across the ends such that the total resistance of the circuit is R. When the ring is suddenly squeezed to zero area, the charge flowing through the galvanometer is

Figure. shows two concentric coplanar coils with radii a and b(alt ltb) . A current I = 2t flows in the smaller loop. Neglecting self-inductance of the larger loop, a. find the mutual inductance of the two coils, b. find the emf induced in the larger coil, c. if the resistance of the larger loop is R , find the current in it as a function of time.

Figure shows two concentric coplanar coils with radii a and b(alt ltb) . A current I = 2t flows in the smaller loop. Neglecting self-inductance of the larger loop, a. find the mutual inductance of the two coils, b. find the emf induced in the larger coil, c. if the resistance of the larger loop is R , find the current in it as a function of time.

If the current in the primary circuit of a pair of coils changes from 5 amp to 1 amp in 0.02 sec, calculate (i) induced emf in the secondary coil if the mutual inductance between the two coils is 0.5H and (ii) the change of flux per turn in the secondary, if it has 200 turns.

In the circuit shown, keys K_1 and K_2 both are closed the ammeter reads I_0 . But when K_1 is open and K_2 is closed, the ammeter reads I_0//2 . Assuming that ammeter resistance is much less than R_2 , the values of r and R_1 is Omega are