A metallic sphere of capacitance , charged to electric potential is connected by a metal wire to another metallic sphere of capacitance charged to electric potential . The amount of heat produced in connecting the wire during the process is:
1.
2.
3.
4. zero
The electric potential at the surface of a charged solid sphere of insulator is 20V. The value of electric potential at its centre will be
1. 30V
2. 20V
3. 40V
4. Zero
The capacitance of a parallel plate capacitor is C. If a dielectric slab of thickness equal to one-fourth of the plate separation and dielectric constant K is inserted between the plates, then new capacitance become
1.
2.
3.
4.
The electric potential at a point at distance 'r' from a short dipole is proportional to
1.
2.
3.
4.
A hollow charged metal spherical shell has radius R. If the potential difference between its surface and a point at a distance 3R from the center is V, then the value of electric field intensity at a point at distance 4R from the center is
1.
2.
3.
4.
You are traveling in a car during a thunderstorm. In order to protect yourself from lightning, you would prefer to
1. Touch the nearest electric pole
2. Take shelter under a tree
3. Get out and crouch on the ground
4. Remain in the car
Capacitors are connected in series across a source of emf 20KV. The potential difference across will be
1. 5 KV
2. 15 KV
3. 10 KV
4. 20 KV
The equivalent capacitance between A and B is as the given figure:
1. \(16 \pi \epsilon_ 0 r\)
2. \(4 \pi \epsilon_ 0 r\)
3. \(8 \pi \epsilon_ 0 r\)
4. None of these
Two metallic spheres of radii 2cm and 3cm are given charges 6mC and 4mC respectively. The final charge on the smaller sphere will be if they are connected by a conducting wire
1. 4mC
2.6mC
3. 5mC
4. 10mC