Question:
An incompressible non viscous fluid flows steadily through a cylindrical pipe which has radius $2R$ at point $A$ and radius $R$ at point $B$ farther along the flow direction. If the velocity of the fluid at point $A$ is $V$, its velocity at the point $B$ will be
An incompressible non viscous fluid flows steadily through a cylindrical pipe which has radius $2R$ at point $A$ and radius $R$ at point $B$ farther along the flow direction. If the velocity of the fluid at point $A$ is $V$, its velocity at the point $B$ will be
Updated On: Jun 20, 2022
- $2V$
- $V$
- $V/2$
- $4V$
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The Correct Option is D
Solution and Explanation
We know that, from continuity equation,
$A_{1} V_{1}=A_{2} V_{2}$
(Symbols have usual meanings)
$\pi(2 R)^{2} V=\pi R^{2} V_{B}$
$\left(V_{B}=\right.$ Velocity of the fluid at point $B$ )
$\Rightarrow \pi(2 R)^{2} V =\pi R^{2} V_{B}$
$\Rightarrow \pi 4 R^{2} V=\pi R^{2} V_{B}$
$4 V=V_{B}$
$\therefore V_{B}=4 V$
$A_{1} V_{1}=A_{2} V_{2}$
(Symbols have usual meanings)
$\pi(2 R)^{2} V=\pi R^{2} V_{B}$
$\left(V_{B}=\right.$ Velocity of the fluid at point $B$ )
$\Rightarrow \pi(2 R)^{2} V =\pi R^{2} V_{B}$
$\Rightarrow \pi 4 R^{2} V=\pi R^{2} V_{B}$
$4 V=V_{B}$
$\therefore V_{B}=4 V$
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Concepts Used:
Hydrostatics
A branch of physics that deals with the characteristics of fluids at rest, particularly with the pressure in a fluid or exerted by a fluid (gas or liquid) on an immersed body is called Hydrostatics.
Hydrostatic Pressure:
Hydrostatic pressure is proportional to the depth measured from the surface as the weight of the fluid increases when a force is applied in a downward direction.
Formula for Hydrostatic Pressure:
