In the circuit shown the cells are ideal and of equal emfs, the capacitance of the capacitor is `C` and the resistance of the resistor is `R`. `X` is first joined to `Y`and then to `Z`. After a long time, the total heat produced in the resistor will be
A
equal to the energy finally stored in the capacitor
B
half the energy finally stored in the capacitor
C
twice the energy finally stored in the capacitor
D
Four times the energy finally stored in the capacitor
Text Solution
Verified by Experts
The correct Answer is:
D
Topper's Solved these Questions
PRACTICE WORKSHEET 1
D MUKHERJEE|Exercise Assertion- Reason Type|3 Videos
PRACTICE WORKSHEET 1
D MUKHERJEE|Exercise Linked- Comprehension Type|3 Videos
OPTICS
D MUKHERJEE|Exercise All Questions|47 Videos
PRACTICE WORKSHEET 2
D MUKHERJEE|Exercise Linked- Comprehension Type|4 Videos
Similar Questions
Explore conceptually related problems
In the circuit shown, both cells are ideal and of fixed emf, the resistance of resistance R_(1) has fixed resistance and the resistance of resistor R_(2) can be varied (but the value of R_(2) is not zero). Then:
In the circuit shown, the cell is ideal , with emf= 15 V . Ecah resistance is of 3 Omega. the potential difference across the capacitor is
In the current shows Fig x is joined to Y for a long time and then X is joined to Z . The total heat produced in R_(2) is
In the circuit shown here, what is the value of the unknown resistor R so that the total resistance of the circuit between points P and Q is also equal to R
Statement I : In the circuit in Fig. 7.46 , both cells are ideal and of fixed emf, the resistor R_(1) has fixed resistance and the resistance of resistor R_(2) can be varied ( but R_(2) is always non zero). Then the electric power delivered to the resistor of resistance R_(1) is independent of the value of resistance R_(2) . Statement II: If potential difference across a fixed resistance is unchanged , the poweer delivered to the resistor remains constant.
In the circuit shown, initially the switch is in position 1 for a long time. Then the switch is shifted to position 2 for a long time. Find the total heat produced in R_(2)
In the circuit shown below, all the inductors (assumed ideal) and resistors are identical. The current through the resistance on the right is I after the key K has been switched on for along time. The currents through the three resistors (in order, from left to right) immediately after the key is switched off are -
In the circuit shown , the resistances are given in ohms and the battery is assumed ideal with emf equal to 3.0 volts The resistor that dissipates the most power is
The circuit shown has resistor of equal resistance R. Find the equivalent resistance between A and B, when the key is closed.
D MUKHERJEE-PRACTICE WORKSHEET 1-Matrix-Matching Type
