Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions)
A 16 muF capacitor , initially charged to 5 V, is started chargingat t = 0 by a source at the rate of 40 t muC/s. How long will it take to raise its potential to 10 V?
08
Nov
A 16 muF capacitor , initially charged to 5 V, is started chargingat t = 0 by a source at the rate of 40 t muC/s. How long will it take to raise its potential to 10 V? A 16 muF capacitor initially charged to 5 V is started chargingat t = 0 by a [...]
Three identical metallic plates are kept parallel to one another at separations a and b. The outer plates are connected to the ground and the middle plate is given charge Q. Then, the charge on the right side of middle plate is
08
Nov
Three identical metallic plates are kept parallel to one another at separations a and b. The outer plates are connected to the ground and the middle plate is given charge Q. Then, the charge on the right side of middle plate is the charge on the right side of middle plate is Three identical metallic [...]
Several capacitors are connected as shown in figure. IF the charge on the 5 muF capacitor is 120 muC , the potential between points A and D is
08
Nov
Several capacitors are connected as shown in figure. IF the charge on the 5 muF capacitor is 120 muC , the potential between points A and D is Several capacitors are connected as shown in figure. IF the charge on the 5 muF capacitor is 120 muC the potential between points A and D is [...]
In the circuit shown in figure, the charge on the 5 muF capacitor will be
08
Nov
In the circuit shown in figure, the charge on the 5 muF capacitor will be In the circuit shown in Figure the charge on the 5 muF capacitor will be November 8, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
A, B, C, D, E , and F are conducting plates each of area A , and any two consecutive plates are seperated by a distance d. The net energy stored in the system after the switch S is closed is
08
Nov
A, B, C, D, E , and F are conducting plates each of area A , and any two consecutive plates are seperated by a distance d. The net energy stored in the system after the switch S is closed is -e A) and any two consecutive plates are seperated by a distance d. The [...]
In the circuit shown in figure, C1 = 6 muF , C2 = 3 muF , and battery B = 20 V . The switch S1 is first closed. It is then opened, and S2 is closed. what is the final charge on C2 ?
08
Nov
In the circuit shown in figure, C1 = 6 muF , C2 = 3 muF , and battery B = 20 V . The switch S1 is first closed. It is then opened, and S2 is closed. what is the final charge on C2 ? and battery B = 20 V . The switch S1 [...]
Two squares plates ( l x l ) and dielectric [1/2 x t/2 x l ] are arranged as shown in figure. Find the equivalent capacitance of the structure.
08
Nov
Two squares plates ( l x l ) and dielectric [1/2 x t/2 x l ] are arranged as shown in figure. Find the equivalent capacitance of the structure. Two squares plates ( l x l ) and dielectric [1/2 x t/2 x l ] are arranged as shown in figure. Find the equivalent capacitance [...]
Capacitor C1 is connected to a battery and charged till teh magnitude of the charge on each plate is q0. THen, the battery is disconnected and C1 is connected to two other uncharged capacitors C2 and C3 as shown ( figure ) . Final charges on the capacitors ( q1, q2 , and q3 ) are related by
08
Nov
Capacitor C1 is connected to a battery and charged till teh magnitude of the charge on each plate is q0. THen, the battery is disconnected and C1 is connected to two other uncharged capacitors C2 and C3 as shown ( figure ) . Final charges on the capacitors ( q1, q2 , and q3 ) [...]
Tags:
and q3 ) are related by ,
Capacitor C1 is connected to a battery and charged till teh magnitude of the charge on each plate is q0. THen ,
q2 ,
the battery is disconnected and C1 is connected to two other uncharged capacitors C2 and C3 as shown ( figure ) . Final charges on the capacitors ( q1 ,
In the given circuit diagram ( figure ) , switch Sw is shifted from position 1 to position 2. Then
08
Nov
In the given circuit diagram ( figure ) , switch Sw is shifted from position 1 to position 2. Then In the given circuit diagram ( figure ) switch Sw is shifted from position 1 to position 2. Then November 8, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Find the equivalent capacitance across A and B. (1) 35/6 muF (2) 25/6 muF (3) 15 muF (4) none of these
08
Nov
Find the equivalent capacitance across A and B. (1) 35/6 muF (2) 25/6 muF (3) 15 muF (4) none of these Find the equivalent capacitance across A and B. (1) 35/6 muF (2) 25/6 muF (3) 15 muF (4) none of these November 8, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP [...]