Two capacitors of capacitances 3 µF and 6 µF are char

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 Multiple Choice QuestionsMultiple Choice Questions

101.

A parallel plate capacitor is charged and then isolated. The effect of increasing the plate separation on charge, potential and capacitance respectively are

  • constant, decreases, increases

  • constant, decreases, decreases

  • constant, increases, decreases

  • increases, decreases, decreases


102.

Three point charges 3 nC, 6 nC and 9 nC are placed at the corners of an equilateral triangle of side 0.1 m. The potential energy of the system is

               

  • 991 μJ

  • 8910 μJ

  • 891 μJ

  • 99100 μJ


103.

Nature of equipotential surface for a point charge is

  • Ellipsoid with charge at foci

  • Sphere with charge at the centre of the sphere

  • Sphere with charge on the surface of the sphere

  • Plane with charge on the surface


104.

A capacitor of 8 Fis connected as shown in the figure. Charge on the plates of the capacitor

             

  • 32 C

  • 40 C

  • 0 C

  • 80 C


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105.

Four metal plates are arranged as shown in the figure. Capacitance between X and Y (A ➔ Area of each plate, d ➔ distance between the plates) is

                 

  • 32 ε0Ad

  • 2ε0Ad

  • 23 ε0Ad

  • 3ε0Ad


106.

A capacitor of capacitance 10 µF is connected to an AC ammeter. If the source voltage varies as V = 502 sin 100 t, the reading of the ammeter is

  • 50 mA

  • 70.7 mA

  • 5.0 mA

  • 7.07 mA


107.

The minimum value of effective capacitance that can be obtained by combining 3 capacitors of capacitances 1 pF, 2 pF and 4 pF

  • 47 pF

  • 1 pF

  • 2 pF

  • 74 pF


108.

A system of two capacitors of capacitance 2 μFand 4 µF is connected in series across a potential difference of 6V. The electric charge and energy stored in a system are

  • 36 μC and 108 μJ

  • 8 μC and 24 μJ

  • 1 μC and 3 μJ

  • 10 μC and 30 μJ


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109.

Two capacitors of capacitances 3 µF and 6 µF are charged to a potential of 12 V each. They are now connected to each other, with the positive plate to each joined to the negative plate to the other. The potential difference across each will be

  • 4V

  • 6V

  • zero

  • 3V


A.

4V

            

V1 = 12 V

q1 = C1V1 = 36 μC

q2 = C2V1 = 72 μC

when the two are connected in series (+ve of each -ve of each).

C1 = 3 μF

C2 = 9 μF

Both are charged by 12 V battery C2

∴ Charge on C1 = 12 × 3 = 36 μC

   Charge on C2 = 12 × 6 = 72 μC

                

q on A1 = + 36 μC on A2 = − 36 μC

q on B1 = 72 μC on B2 = + 72 μC

Total charge o A1 and B1 = (36 − 72) μC

       Q1 = − 36 μC

Total charge on A2 and B2 = (72 − 36) μC

       Q2 = 36 μC

∴ A1 and B1 have −ve charge and A2 B2 have +ve charge

So combination is in parallel

      Ceq = 9 μF

V across each is

          V = Q1 × Q2C = 36 μC9 μFV = 4 volts


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110.

What fraction of the energy drawn from the charging battery is stored in a capacitor ?

  • 75 %

  • 100 %

  • 25 %

  • 50 %


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