Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions)
The equivalent capacitance between points X and Y in figure is (1) 6/5 muF (20 4 muF (3) 18/5 muF (4) none of these
08
Nov
The equivalent capacitance between points X and Y in figure is (1) 6/5 muF (20 4 muF (3) 18/5 muF (4) none of these The equivalent capacitance between points X and Y in figure is (1) 6/5 muF (20 4 muF (3) 18/5 muF (4) none of these November 8, 2020 Category: Uncategorised (JEE Advanced [...]
Six capacitors each of capacitance 1 muF are connectedd as shown in figure. Find the charge flowing in direction 1 as shown in the figure will be
08
Nov
Six capacitors each of capacitance 1 muF are connectedd as shown in figure. Find the charge flowing in direction 1 as shown in the figure will be Six capacitors each of capacitance 1 muF are connectedd as shown in figure. Find the charge flowing in direction 1 as shown in the figure will be November [...]
The equivalent capacitance of the circuit across the terminals A and B is equal to
08
Nov
The equivalent capacitance of the circuit across the terminals A and B is equal to The equivalent capacitance of the circuit across the terminals A and B is equal to November 8, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
In figure, identical capacitors are connected in the following three configurations.
08
Nov
In figure, identical capacitors are connected in the following three configurations. identical capacitors are connected in the following three configurations. In figure November 8, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
In figure, the battery has a potential difference of 20 V. The charge in the capacitor marked as C is
08
Nov
In figure, the battery has a potential difference of 20 V. The charge in the capacitor marked as C is In figure the battery has a potential difference of 20 V. The charge in the capacitor marked as C is November 8, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
In the circuit shown, the effective capacitance between points X and Y is
08
Nov
In the circuit shown, the effective capacitance between points X and Y is In the circuit shown the effective capacitance between points X and Y is November 8, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
A photographic flash unit consists of a xenon – filled tube . It is given a flash of average power 2000 W for 0.04 s. THe flash is due to discharge of a fully charged capacitror of 40 muF . The voltage to which it is charged before a flash is given by the unit is
07
Nov
A photographic flash unit consists of a xenon – filled tube . It is given a flash of average power 2000 W for 0.04 s. THe flash is due to discharge of a fully charged capacitror of 40 muF . The voltage to which it is charged before a flash is given by the unit [...]
A dielectric slab of area A and thickness d is inderted between then plates of a capaitor of area 2A with constant speed υ as shown in. Dustance between the plates is (d). The capacitor is connected to a battery of emf E. The current in the ciruit varies with time as.
07
Nov
A dielectric slab of area A and thickness d is inderted between then plates of a capaitor of area 2A with constant speed υ as shown in. Dustance between the plates is (d). The capacitor is connected to a battery of emf E. The current in the ciruit varies with time as. A capacitor is [...]
In the circuit shown in figure, C= 6 muF. The charge stored in the capacitor of capacity C is
07
Nov
In the circuit shown in figure, C= 6 muF. The charge stored in the capacitor of capacity C is C= 6 muF. The charge stored in the capacitor of capacity C is In the circuit shown in Figure November 7, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
A source of sound of frequency f1 is placed on the ground. A detector placed at a height is released from rest on this source. The observed frequency f (Hz) is plotted against
07
Nov
A source of sound of frequency f1 is placed on the ground. A detector placed at a height is released from rest on this source. The observed frequency f (Hz) is plotted against A source of sound of frequency f1 is placed on the ground. A detector placed at a height is released from rest [...]