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An electric dipole of dipole moment p is placed in a uniform electric field of intensity E. If the initial and the final angular position of the dipole with respect to the electric field is θ1 and θ2 respectively then the amount of work done will be:

  1. pE(sinθ1 - sinθ2)
  2. pE(cosθ1 - cosθ2)
  3. pE.cos(θ2 - θ1)
  4. pE.sin(θ2 - θ1)

Answer (Detailed Solution Below)

Option 2 : pE(cosθ1 - cosθ2)
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Detailed Solution

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CONCEPT:

Electric dipole

  • When two equal and opposite charges are placed at a very small distance to each other then this arrangement is called an electric dipole
  • The electric dipole moment is defined as the product of the magnitude of one charge and the distance between the charges in an electric dipole.

⇒ P = q × 2r    

Where 2r = distance between the two charges

  • Work done required to rotate an electric dipole in an external uniform electric field from the angle θ1 to θ2 is given as,

⇒ W = pE(cosθ1 - cosθ2)

Where θ1 and θ2 = initial and the final angle between the dipole and the electric field

F1 Prabhu Anil 19.04.21 D8

EXPLANATION:

  • From the above, it is clear that work done required to rotate an electric dipole in an external uniform electric field from the angle θ1 to θ2 is given as,

⇒ W = pE(cosθ1 - cosθ2)

  • Hence, option 2 is correct.
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