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
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
C.
891 μJ
Given, q1 = 3 nC = 3 × 10-9 C
q2 = 6 nC = 6 × 10-9 C
q3 = 9 nC = 9 × 10-9 C
r12 = r23 = r13 = 0.1
Now, potential energy of the system,
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
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
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
A capacitor of capacitance 10 µF is connected to an AC ammeter. If the source voltage varies as , the reading of the ammeter is
50 mA
70.7 mA
5.0 mA
7.07 mA
The minimum value of effective capacitance that can be obtained by combining 3 capacitors of capacitances 1 pF, 2 pF and 4 pF
1 pF
2 pF
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
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
What fraction of the energy drawn from the charging battery is stored in a capacitor ?
75 %
100 %
25 %
50 %