The plates of a parallel plate capacitor are charged up to 100V. Now, after removing the battery, a 2 mm thick plate is inserted between the plates . Then, to maintain the same potential difference, the distance between the capacitor plates is increased by 1.6 mm.

khamusir2u

khamusir2u

Answered question

2023-03-11

The plates of a parallel plate capacitor are charged up to 100 V. Now, after removing the battery, a 2 mm thick plate is inserted between the plates . Then, to maintain the same potential difference, the distance between the capacitor plates is increased by 1.6 mm. The dielectric constant of the plate is
A) 5
B) 1.25
C) 4
D) 2.5

Answer & Explanation

Gregory Ferguson

Gregory Ferguson

Beginner2023-03-12Added 3 answers

The correct answer is A 5
As the battery is disconnected, charge q will remain the same.
It is given that final potential V is the same.
From q=CV , we can say that the final capacitance should also be same as the initial capacitance i.e.,
C 1 = C 2 ....(1)
If the area of the plates is A and the intial separation between them is d then the capacitance will be
C 1 = ε 0 A d ....(2)
As previously stated, the capacitance of a partially filled dielectric slab of thickness t and dielectric constant K is given by
C 1 = ε 0 A d ....(3)​
Given,
t=2 mm and d′=d+1.6
From equation (1), (2) and (3), we have
ε 0 A d = ε 0 A ( d + 1.6 ) 2 + 2 K
On comaparing the both sides term we get,
1.6 2 + 2 K = 0
2 K = 0.4
Thus, K=5
Therefore, option (a) is the correct answer.
Alternate Solution:
Let, the initial voltage across the capacitor is V 0 and the initial Electric field be E 0
V 0 = E 0 d....(1)
Let dielectric constant be K. So, the new voltage,
V = E 0 ( d t + t K )
Given, t=2 mm
To increase the voltage from V′ to V 0 , separation between the plates is increased by 1.6 mm. Thus,
V 0 = E 0 ( d t + t K + 1.6 )....(2)
Comparing the equations (1) and (2), we get
t + t K + 1.6 = 0
2 + 2 K + 1.6 = 0
⇒K=5
Hence, option (a) is correct.
Key concept:
1. The electric field inside the dielectric of an isolated charged capacitor is reduced by the dielectric constant factor.
2. The electric field of a parallel plate capacitor can be assumed to be uniform if the distance between the plates is small.

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