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Question

On the x-axis and at a distance x from the origin, the gravitational field due to a mass distribution is given by Axx2+a232 in the x-direction. The magnitude of gravitational potential on the x-axis at a distance x, taking its value to be zero at infinity, is:


A

Ax2+a232

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B

Ax2+a212

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C

Ax2+a212

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D

Ax2+a232

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Solution

The correct option is B

Ax2+a212


Step 1. Given data:

Gravitational field due to a mass distribution EG = Axx2+a232

Step 2. Explanation:

Gravitational field due to mass distribution Eg=Axx2+a232

Also gravitational potential at infinity, V∞=0

We have to find the value of the gravitational potential at x, Vx=?

As seen from the above equation, the gravitational field is varying with x

Let a small element at a distance dx that has the potential of dv,

So we can write the potential value for this element.

Now Potential for this small element can be written as dV=-EG.dx

Integrating both sides within limits, we get

∫∞xdV=-∫∞xEG.dx

Vx∞=-∫∞xAxx2+a232dx

Vx-V∞=-∫∞xAxx2+a232.dx

Vx-0=-∫∞xAxx2+a232.dx

Vx=-A∫∞xxx2+a232.dx

Step 3. Substituting x

Let x2+a2=t,then2x.dx=dt

x.dx=dt2

At x=∞,t=∞x=x,t=x2+a2

Vx=-A∫∞x2+a2dt2t32

Vx=-A2∫∞x2+a2t-32.dt

Vx=-A2t-32+1-32+1∞x2+a2=-A2t-12-12∞x2+a2=A1t12∞x2+a2

Vx=A1x2+a212-1∞=Ax2+a212

Thus, option B is the correct option.


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