A block of mass M and cylindrical tank w...

A block of mass M and cylindrical tank which contains water having small hole at bottom. Which is closed initially (total mass of cylinder + water is also M), are attached at two ends of an ideal string which passes over an ideal pulley as shown. At t=0 hole is opened such that water starts coming out of the hole with a constant rate kg/s and constant velocity v relative to the cylinder. Acceleration of the block at any time I will be : (Given that string always remains taut.) V. (2M-put) 2uV. (D) (2M - it) (2M - 4t) (A) HV +9t) (B) (2M-put) Hot (C)

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A block of mass M and cylindrical tank which contains water having small hole at bottom, which is closed initially (total mass of cylinder + water is also M), are attached at two ends of an ideal string which passes over an ideal pulley as shown. At t = 0 hole is opened such that water starts coming out of the hole with a constant rate mu kg//s and constant velocity V_(e) relative to the cyliender. aSccleration of the block at any time t will be : (Given that string always remains taut.)

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