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Problem Solving

A block is ly...

Question

A block is lying on a horizontal frictionless surface. One end of a uniform rope is fixed to the block which is pulled in the horizontal direction by applying a force $F$ at the other end. If the mass of the rope is half the mass of the block, the tension in the middle of the rope will be

A

F

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B

\frac{2 F}{3}

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C

\frac{3 F}{5}

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D

\frac{5 F}{6}

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Solution

The correct option is D $\frac{5 F}{6}$

Let $M$ be the mass of the block and $m$ that of the rope.
The acceleration of the block - rope system is
$a = \frac{F}{(M + m)}$
Therefore, the tension at the middle point of the rope will be
$T = (M + \frac{m}{2}) a = \frac{(M + \frac{m}{2}) F}{(M + m)}$
Given, $m = \frac{M}{2}$ . Therefore, $T = \frac{5 F}{6}$ . Hence the correct choice is (d).

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