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Question

The figure given below shows four orientations of an electric dipole in an external electric field.


A
Workdone to rotate dipole from (1) to (2) is same as workdone to rotate dipole from (1) and (4).
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B
If the dipole rotates from orientation (1) to (2), then the workdone on the dipole by field is positive.
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C
Potential energy of dipole is greater for orientations (1) and (3) than (2) and (4).
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D
If the dipole rotates from orientation (1) to (2), then the workdone on the dipole by field is negative.
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Solution

The correct option is C Potential energy of dipole is greater for orientations (1) and (3) than (2) and (4).
From the given figure, we can deduce that, Angle made by the dipole with electric field in orientations (1) and (3) is same. Similarly, angles made by the dipole in orientations (2) and (4) with electric field are same.

Potential energy of dipole in orientation (1) is given by

U1=pEcos(180θ)=pEcosθ ....(a)

Thus, we can say that , U3=pEcosθ ......(b)

Similarly,

Potential energy of dipole in orientation (2) is given by U2=pEcosθ .......(c)

Thus, U4=pEcosθ ......(d)

Hence, option (a) is correct.

Workdone on the dipole by field while rotating from (1) to (2) is

W=UiUf=U1U2

Substituting (a) and (c),

W=2pEcosθ .......(e)

Since, workdone is positive, we can say that, option (b) is correct.

Workdone on the dipole by field while rotating from (1) to (4 is

W=UiUf=U1U4

Substituting (a) and (d)

W=2pEcosθ .......(f)

From (e) and (f) we can conclude that, W=W

So, option (d) is also correct.

Hence, options (a) , (b) and (d) are the correct answers.

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