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Physics-

General

Easy

Question

The P.d between the terminals A&B is-

2 V
3 V
3.6 V
1.8 V

The correct answer is: 1.8 V

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For a cell, the graph between the p.d.(V) across the terminals of the cell and the current I drawn from the cell is shown in the fig. the emf and the internal resistance of the cell is E and r respectively.

For a cell, the graph between the p.d.(V) across the terminals of the cell and the current I drawn from the cell is shown in the fig. the emf and the internal resistance of the cell is E and r respectively.

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One plate of a capacitor is connected to a spring as shown. Area of both the plate is $A$ and separation is $d$ when capacitor is uncharged. When capacitor is charged, in steady state separation between the plates is 0.8d. The force constant of the spring is :

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If the equivalent capacity between A and B in the circuit is $12 mu F$ , the capacity is

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The potential drop across $7 mu F$ capacitor is 6V. I

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In the given circuit the effective capacity between A and B is

In the given circuit the effective capacity between A and B is

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In the given circuit P.D. between A and B in the steady state is

In the given circuit P.D. between A and B in the steady state is

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Two condensers of capacities 4mF and 6mF are connected to two cells as shown. Then

Two condensers of capacities 4mF and 6mF are connected to two cells as shown. Then

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If the potential at A is 2000V the potential at B is

If the potential at A is 2000V the potential at B is

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The capacity of each condenser in the following fig. is ' C ' . Then the equivalent capacitance across A and B is

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A and B are two points in a closed circuit. The potential difference across the condenser of capacity 5mF is

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Two identical condensers M and N are connected in series with a battery. The space between the plates of 'M' is completely filled with dielectric medium of dielectric constant 8 and a copper plate of thickness d/2 is introduced between the plates of N. (d=distance of separation of the plates). Then the potentials of M and N are respectively.

Two identical condensers M and N are connected in series with a battery. The space between the plates of 'M' is completely filled with dielectric medium of dielectric constant 8 and a copper plate of thickness d/2 is introduced between the plates of N. (d=distance of separation of the plates). Then the potentials of M and N are respectively.

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The energy stored in $5 mu F$ and $8 mu F$ capacitors are

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In the circuit, all capacitor are identical, each of capacity $2 mu F$ and they are infinite in number. If AB is connected to a battery of 10V then the charge drawn from the battery is :

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The equivalent capacity between A and B in the given circuit is $open parentheses C subscript 1 end subscript equals 4 mu F comma C subscript 2 end subscript equals 12 mu F close$ , $open C subscript 3 end subscript equals 8 mu F comma C subscript 4 end subscript equals 4 mu F comma C subscript 5 end subscript equals 8 mu F close parentheses$

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Two charges $Q subscript 1 end subscript$ and $Q subscript 2 end subscript$ Coulombs are shown in fig. A third charge $Q subscript 3 end subscript$ coulomb is moved from point R to S along a circular path with P as centre. Change in potential energy is

Two charges $Q subscript 1 end subscript$ and $Q subscript 2 end subscript$ Coulombs are shown in fig. A third charge $Q subscript 3 end subscript$ coulomb is moved from point R to S along a circular path with P as centre. Change in potential energy is

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