Home
Class 12
PHYSICS
(a) Determine the electrostatic potentia...

(a) Determine the electrostatic potential energy of a system consisting of two charges 7 µC and –2 µC (and with no external field) placed at (–9 cm, 0, 0) and (9 cm, 0, 0) respectively.
(b) How much work is required to separate the two charges infinitely away from each other?
(c) Suppose that the same system of charges is now placed in an external electric field `E = A(1//r^(2)):A = 9 xx 10^(5) NC^(-1)` . What would the electrostatic energy of the configuration be?

Text Solution

Verified by Experts

(a) `U = 1/(4pi epsilon_(0)) . (q_(1)q_(2))/( r) = 9 xx 10^(9) xx (7 xx -2) xx 10^(-12)/0.18 = 0.7 J`
(b) `W = U_(2)-U_(1) =0-U = 0- (-0.7) = 0.7 J`
( c) The mutual interaction energy of the two charges remains unchanged. In addition, there is the energy of interaction of the two charges with the external electric field. We find,
`q_(1) V(r_(1)) + q_(2)V(r_(2)) = A(7 muC)/(0.09 m) + A(-2 muC)/(0.09 m)` and the net electrostatic energy is `q_(1) V(r_(1)) + q_(2)V(r_(2)) + (q_(1)q_(2))/(4pi epsilonr_(12)) = A(7muC)/(0.09 m) + A(-2 muC)/(0.09 m) -0.7 J = 70-20-0.7 = 49.3 J`
Promotional Banner

Similar Questions

Explore conceptually related problems

Determine the electrostatic potential energy of a system consisting of two charges 7muC and -2muC (and with no external field) placed at (-9 cm, 0,0) and (9cm,0,0) respectively.

Derive an expression for the electrostatic potential energy of a system of two point charges and find its relation with electric potential of a charge.

Two point charges-q and +q are located at points (0, 0,-a) and (0, 0, a) respectively. The electric potential at a point (0, 0, z), where z> a is

The charges +5 mu C and +10 mu C are placed 20 cm apart. The electric field at the mid point between the two charges is