Discussion :: Hydraulics and Fluid Mechanics
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A hemispherical tank of radius (R) has an orifice of cross-sectional area (a) at its bottom and is full of liquid. The time required to empty the tank completely is
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A.
\(\frac { 14 n R^\frac{1}{2} } { 15C_d \times a \sqrt{2g}} \) |
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B.
\(\frac { 14 n R^\frac{3}{2} } { 15C_d \times a \sqrt{2g}} \) |
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C.
\(\frac { 14 n R^\frac{5}{2} } { 15C_d \times a \sqrt{2g}} \) |
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D.
\(\frac { 14 n R^\frac{7}{2} } { 15C_d \times a \sqrt{2g}} \) |
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Answer : Option C
Explanation :
No answer description available for this question.
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