A closed cubical vessel is given a horizontal acceleration a. Find the value of a such that pressure at the mid point M of AC is equal to pressure at N.
A
2g
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B
3g
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C
g
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D
4g
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Solution
The correct option is A2g For the given accelerated container, the pressure difference in the liquid along horizontal direction is given by, ΔP=ρax...(i) The pressure will increase in a direction opposite to that of acceleration of the container.
From figure, applying Eq.(i) PM=PC+(ρa×2.5)...(1) Similarly, PA=PC+(ρa×5)...(2) The pressure difference in the liquid due to vertical depth is given as: ΔP=ρgh Since PA>PN ⇒PN=PA−ρg×5...(3) [∵h=5m]
From eq.(1),(2),(3) PN=(PC+ρa×5)−ρg×5...(4) Equating pressure at M&N as given in question, PM=PN⇒PC+ρa×2.5=Pc+ρa×5−ρg×5 ⇒5ρg=2.5ρa ∴a=2g Acceleration of the closed cubical vessel is 2g