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Physics-

General

Easy

Question

A tank is filled upto a height h with a liquid and is placed on a platform of height h from the ground. To get maximum range $x subscript m end subscript$ a small hole is punched at a distance of y from the free surface of the liquid. Then

$x_{m} = 2 h$
$x_{m} = 1.5 h$
$y = h$
$y = 0.75 h$

The correct answer is: $x subscript m end subscript equals 2 h$

Velocity of liquid through orifice, $v equals square root of 2 g y end root$
and time taken by liquid to reach the ground
$t equals square root of fraction numerator 2 left parenthesis h plus h minus y right parenthesis over denominator g end fraction end root equals square root of fraction numerator 2 left parenthesis 2 h minus y right parenthesis over denominator g end fraction end root$
\ Horizontal distance covered by liquid
$x equals v. t. equals square root of 2 g y end root cross times square root of fraction numerator 2 left parenthesis 2 h minus y right parenthesis over denominator g end fraction end root equals square root of 4 y left parenthesis 2 h minus y right parenthesis end root$
Þ $x to the power of 2 end exponent equals 4 y left parenthesis 2 h minus y right parenthesis$
Þ $fraction numerator d left parenthesis x right parenthesis to the power of 2 end exponent over denominator d y end fraction equals 8 h minus 8 y$
for x to be maximum, $fraction numerator d over denominator d y end fraction left parenthesis x to the power of 2 end exponent right parenthesis equals 0$
\ $8 h minus 8 y equals 0$ or $h equals y$
So $x subscript m end subscript equals square root of 4 h left parenthesis 2 h minus h right parenthesis end root equals 2 h$

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