A parallel plate condenser is immersed in an oil of dielectric constant 2. The field between the plates is
(1) Increased proportional to 2
(2) Decreased proportional to
(3) Increased proportional to
(4) Decreased proportional to
If the dielectric constant and dielectric strength be denoted by \(k\) and \(x\) respectively, then a material suitable for use as a dielectric in a capacitor must have:
1. high \(k\) and high \(x\).
2. high \(k\) and low \(x\).
3. low \(k\) and low \(x\).
4. low \(k\) and high \(x\).
When air in a capacitor is replaced by a medium of dielectric constant K, the capacity:
1. Decreases K times
2. Increases K times
3. Increases K2 times
4. Remains constant
The capacity of a parallel plate capacitor increases with the
(1) Decrease of its area
(2) Increase of its distance
(3) Increase of its area
(4) None of the above
The radii of two metallic spheres P and Q are r1 and r2 respectively. They are given the same charge. If r1 > r2 , then on connecting them with a thin wire, the charge will flow
(1) From P to Q
(2) From Q to P
(3) Neither the charge will flow from P to Q nor from Q to P
(4) The information is incomplete
Between the plates of a parallel plate condenser, a plate of thickness t1 and dielectric constant k1 is placed. In the rest of the space, there is another plate of thickness t2 and dielectric constant k2. The potential difference across the condenser will be
(1)
(2)
(3)
(4)
The true statement is, on increasing the distance between the plates of a parallel plate condenser -
(1) The electric intensity between the plates will decrease
(2) The electric intensity between the plates will increase
(3) The electric intensity between the plates will remain unchanged
(4) The P.D. between the plates will decrease
The capacity and the energy stored in a parallel plate condenser with air between its plates are respectively Co and Wo. If the air is replaced by the glass (dielectric constant = 5) between the plates, the capacity of the condenser and the energy stored in it will respectively be -
(1)
(2)
(3)
(4)
Force of attraction between the plates of a parallel plate capacitor whose dielectric constant is K will be -
(1)
(2)
(3)
(4)
A 6 μF capacitor is charged from 10 volts to 20 volts. Increase in energy will be
(1) 18 × 10–4 J
(2) 9 × 10–4 J
(3) 4.5 × 10–4 J
(4) 9 × 10–6 J