Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions)
Consider the shown network. Initially both swiches are open and the capacitor are uncharged. Both the switches are then closed simultaneously at t=0 (a) Obtain the current through switch S_(2) as function of time. (b) If switch S_(2) is opened again after a long time interval, find the total heat that would dissipate in the resistor and the charge that would flow through switch S_(1) after S_(2) is opened?
24
Aug
Consider the shown network. Initially both swiches are open and the capacitor are uncharged. Both the switches are then closed simultaneously at t=0 (a) Obtain the current through switch S_(2) as function of time. (b) If switch S_(2) is opened again after a long time interval, find the total heat that would dissipate in the [...]
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.
24
Aug
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). [...]
Find the equivalent resistance between points A and B in the following circuits?
24
Aug
Find the equivalent resistance between points A and B in the following circuits? Find the equivalent resistance between points A and B in the following circuits? r=4Omega August 24, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
In the circuit shown, r=4Omega, C=2muF (a) Find the current coming out of the battery just after the switch is closed. (b) Find charge on each capacitor in the steady state condition.
24
Aug
In the circuit shown, r=4Omega, C=2muF (a) Find the current coming out of the battery just after the switch is closed. (b) Find charge on each capacitor in the steady state condition. C=2muF (a) Find the current coming out of the battery just after the switch is closed. (b) Find charge on each capacitor in [...]
Two identical sheets of a metallic foil are separated by d and capacitance of the system is C and charged to a potential difference E. Keeping the charge constant, the separation is increased by ℓ. Then the new capacitance and potential difference will be:
24
Aug
Two identical sheets of a metallic foil are separated by d and capacitance of the system is C and charged to a potential difference E. Keeping the charge constant, the separation is increased by ℓ. Then the new capacitance and potential difference will be: the separation is increased by ℓ. Then the new capacitance and [...]
An ellipsoidal cavity is carved within a perfect conductor. A positive charge q is placed at the centre of the cavity. The points A and B are on the cavity surfaces as shown in the figure. Then
24
Aug
An ellipsoidal cavity is carved within a perfect conductor. A positive charge q is placed at the centre of the cavity. The points A and B are on the cavity surfaces as shown in the figure. Then An ellipsoidal cavity is carved within a perfect conductor. A positive charge q is placed at the centre [...]
A charge Q is to be divided on two small spheres; the distance between the centre of the spheres is R.
24
Aug
A charge Q is to be divided on two small spheres; the distance between the centre of the spheres is R. A charge Q is to be divided on two small spheres; the distance between the centre of the spheres is R. August 24, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP [...]
An assmebly of charges +q, -q , +q, -q….. are at positions x = 1 m, 2 m, 4 m, 8 m,…. And so on from origin. What is the potential at x = 0, due to these charges
24
Aug
An assmebly of charges +q, -q , +q, -q….. are at positions x = 1 m, 2 m, 4 m, 8 m,…. And so on from origin. What is the potential at x = 0, due to these charges -q -q….. are at positions x = 1 m …. And so on from origin. What [...]
The potential energy of the system of two identically charged spheres as shown in the figures is equal to (Assume the charge distribution to be uniform)
24
Aug
The potential energy of the system of two identically charged spheres as shown in the figures is equal to (Assume the charge distribution to be uniform) The potential energy of the system of two identically charged spheres as shown in the figures is equal to (Assume the charge distribution to be uniform) August 24, 2020 [...]
The ratio of the time periods of small oscillation of the insulated spring and mass system before and after charging the masses is
24
Aug
The ratio of the time periods of small oscillation of the insulated spring and mass system before and after charging the masses is The ratio of the time periods of small oscillation of the insulated spring and mass system before and after charging the masses is August 24, 2020 Category: Uncategorised (JEE Advanced Physics by [...]