The current sensitive and voltage semsitivity of a moving coil galvanometer aare `0.03 (rad//A)` and `(3times overset(-5)(10) rad//V)` respecively. The resistance of galvanometer is

The current sensitivity of a moving coil galvanometer can be increased by

Current sensitivity of a moving coil galvanometer is independent of

The ratio of voltage sensitivity (V_S) and current sensitivity (I_S) of a moving coil galvanometer is

Current senstivity of moving coil galvanometer is 5 "div"//mA and its voltage senstivity (angular deflection per unit voltage applied) is 20 "div"//V . The resistance of the galvanometer is

The deflection in a moving coil galvanometer falls from 50 divisions to 10 divisions when a shunt of 12 ohm is applied. What is the resistance of the galvanometer?

Sensitivity of moving coil galvanometer is 's'. If a shunt of ((1)/(8))^(th) of the resistance of galvanometer is connected to moving coil galvanometer, its sensitivity becomes

To increase the current sensitivity of a moving coil galvanometer by 50% its resistance is increased so that the new resistance becomes twice its initial resistance. By what factor does its voltage sensitivity change?

In an attempt to increases the current sensitivity of a moving coil galvanometer, it is found that its resistance becomes double while the current sensitivity increases by 10%. The voltage sensitivity of the galvanometer changes by

The current sensitivity of a moving coil galvanometer increases by 20% when its resistance is doubled calculate, by what factor does the voltage sensitivity change?

The following combination are concerned with experiments of the characterization and use of a moving coil galvanometer. The series combination of variab resistance R, one 100 Omega resistor and moving coil galvanometer is connected to a mobile phone charger having negligible internal resistance. The zero of the galvanometer lies the centre and the pointer can move 30 division full scale on either side depending on the directin of current. The reading of the galvanometer is 10 divisions and the voltages across the galvanometer and 100 Omega resistor are respectively 12mV and 16 mV. The series combination of the galvanometer with a resistnce of R is conneted across an ideal voltage supply of 12 V and this time the galvanometer shows full scale defiention of 30 divisions. The value of R is nearly