Question:
An ideal fluid flows through a pipe of circular cross-section made of two sections with diameters $2.5\, cm$ and $3.75\, cm$. The ratio of the velocities in the two pipes is
An ideal fluid flows through a pipe of circular cross-section made of two sections with diameters $2.5\, cm$ and $3.75\, cm$. The ratio of the velocities in the two pipes is
Updated On: Jul 27, 2022
- $9 : 4$
- $3 : 2$
- $\sqrt{3} : \sqrt{2}$
- $\sqrt{2} : \sqrt{3}$
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The Correct Option is A
Solution and Explanation
As,
$A_{1}v_{1}=A_{2}v_{2}$
$\Rightarrow \frac{v_{1}}{v_{2}}=\frac{A_{2}}{A_{1}}=\frac{\left(\pi D^{2}_{2}/4\right)}{\left(\pi D^{2}_{1}/4\right)}$
$=\left(\frac{D_{2}}{D_{1}}\right)^{2}$
or $\frac{v_{1}}{v_{2}}=\left(\frac{3.75\,cm}{2.5\,cm}\right)^{2}$
$=2.25=9:4$
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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:
