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Question

A rope of length L has its mass per unit length λ vary according to the function λ(x)=ex/L. The rope is pulled by a constant force of 1 N on a smooth horizontal surface. The tension in the rope at x=L/2 is: (Take e=2.7)


A
0.50 N
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B
0.38 N
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C
0.62 N
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D
None
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Solution

The correct option is B 0.38 N
Considering a small element of length dx at distance x from one end (O).


Mass of small element dm=λdx=ex/Ldx
Mass of complete rope M=x=Lx=0dm
M=L0exLdx
M=LexLL0=L(e1)

From FBD of rope:


a=FM=1L(e1)

For finding tension at x=L2, take the FBD of left half:


Mass of the part M=x=L/2x=0dm=L/20exLdx
M=L(e121)

From Newton's 2nd law in direction of acceleration:
T=M×a=Ma
T=(e121)L×1L(e1)
T=e121e1=2.712.71=0.38 N

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