MCQEasyJEE 2025Electric Dipole

JEE Physics 2025 Question with Solution

An electric dipole is placed at a distance of 2cm2 \, \text{cm} from an infinite plane sheet having positive charge density σ\sigma. Choose the correct option from the following.

  • A

    Torque on dipole is zero and net force is directed away from the sheet.

  • B

    Torque on dipole is zero and net force acts towards the sheet.

  • C

    Potential energy of dipole is minimum and torque is zero.

  • D

    Potential energy and torque both are maximum.

Answer

Correct answer:C

Step-by-step solution

Standard Method

Given: An electric dipole is placed near an infinite plane sheet with positive surface charge density σ\sigma at a distance of 2cm2 \, \text{cm}.

Find: The correct statement about torque, force, and potential energy of the dipole.

The electric field due to an infinite plane sheet of charge is uniform and is given by

E=σ2ε0E = \frac{\sigma}{2\varepsilon_0}

This field is directed away from the positively charged sheet.

For a dipole in a uniform electric field:

τ=pEsinθ\tau = pE \sin\theta

and the potential energy is

U=pEcosθU = -pE \cos\theta

For equilibrium, torque must be zero, so

sinθ=0\sin\theta = 0

which gives θ=0\theta = 0^\circ or 180180^\circ.

When the dipole is aligned with the electric field, that is θ=0\theta = 0^\circ,

U=pEU = -pE

which is the minimum value of potential energy. In this aligned position, torque is also zero.

Because the electric field of an infinite sheet is uniform, the dipole experiences no net translational force. Hence options mentioning net force toward or away from the sheet are incorrect.

Therefore, the potential energy of the dipole is minimum and the torque is zero. The correct option is C.

Energy and Equilibrium View

Given: The sheet has uniform positive surface charge density σ\sigma, so it creates a constant electric field.

Find: Which option matches the dipole's equilibrium behavior.

The field due to the infinite sheet is

E=σ2ε0E = \frac{\sigma}{2\varepsilon_0}

Since this field does not vary with distance, it is uniform at the dipole's location.

A dipole in a uniform field has:

  1. Torque
τ=pEsinθ\tau = pE \sin\theta
  1. Potential energy
U=pEcosθU = -pE \cos\theta

Torque becomes zero when the dipole is either parallel or anti-parallel to the field.

For θ=0\theta = 0^\circ,

U=pEU = -pE

This is the minimum potential energy state.

For θ=180\theta = 180^\circ,

U=+pEU = +pE

This is the maximum potential energy state.

Thus the stable equilibrium configuration is the one with minimum potential energy, where the dipole aligns with the field and the torque becomes zero.

Therefore, the correct option is C: Potential energy of dipole is minimum and torque is zero.

Common mistakes

  • Assuming the dipole experiences a net force because the sheet is charged. This is wrong because an infinite plane sheet produces a uniform electric field, and a dipole in a uniform field has zero net translational force. Use torque and potential energy relations instead.

  • Confusing zero torque with only one orientation. Torque is zero for both θ=0\theta = 0^\circ and θ=180\theta = 180^\circ, but the potential energy is minimum only at θ=0\theta = 0^\circ. Check stability using potential energy, not torque alone.

  • Thinking the distance 2cm2 \, \text{cm} changes the field strength for an infinite sheet. This is incorrect because the field due to an ideal infinite plane sheet is independent of distance. Use E=σ2ε0E = \frac{\sigma}{2\varepsilon_0} directly.

Practice more Electric Dipole questions

Get unlimited AI-adaptive practice, mastery tracking, and an AI tutor that explains every step — free to start.

Related questions