A liquid of density rho is flowing with ...

A liquid of density `rho` is flowing with a speed v through a pipe of cross sectional area A. The pipe is bent in the shape of a right angles as shown. What force should be exerted on the pipe at the corner to keep it fixed?

Text Solution

Verified by Experts

Consider a mass `Deltam` of liquid flowing across the corner in time `Delta t`. We will apply Newton's second law of motion to the mass `Deltam`.
Magnitude of initial momentum
`=P_(i)=(Deltam)V`
Magnitude of final momentum
`=P_(f)=(Deltam)V`
Change in momentum `=Delta vec(P)=vec(P)_(f)-vec(P)_(i)`
`Delta vec(P)` can be calculated by te vector subtraction, geometrically.
As `P_(i)=p_(f)implies theta=45^(@)`
`Delta P= sqrt((P_(i)^(2)+p_(f)^(2)))=sqrt(2(Deltam)^(2)V^(2))=sqrt(2)Delta mV`
Force exerted on the liquid `=(Delta P)/(Delta t)=(sqrt(2)Delta mV)/(Delta t) = sqrt(2)Vrho AV`. ltbr. Hence, the pipe must be pushed at the corners as shown in figure. with force `F=sqrt(2)rho AV^(2)` at an angle of `45^(@)`.

Topper's Solved these Questions

NEWTON'S LAWS OF MOTION 1
CENGAGE PHYSICS|Exercise Exercise 6.2|35 Videos
NEWTON'S LAWS OF MOTION 1
CENGAGE PHYSICS|Exercise Exercise 6.3|19 Videos
NEWTON'S LAWS OF MOTION 1
CENGAGE PHYSICS|Exercise Solved Examples|11 Videos
MISCELLANEOUS VOLUME 2
CENGAGE PHYSICS|Exercise INTEGER_TYPE|10 Videos
NEWTON'S LAWS OF MOTION 2
CENGAGE PHYSICS|Exercise Integer type|1 Videos

Similar Questions

Explore conceptually related problems

A liquid of density rho is flowing with a speed V through a pipe of cross sectional area A. What force does the liquid stream exert on wall in x direction if it splashes in the form of a circle after it hits the wall?

In streamline flow of liquid through a pipe of uniform cross sectional area, all stremlines are

A pump is used to pump a liquid of density rho continuously through a pipe of cross, sectional area A. If liquid is flowing with speed v, then average power of pump is

Water (density rho ) is flowing through the uniform tube of cross-sectional area A with a constant speed v as shown in the figure. Find the magnitude of force exerted by the water on the curved corner of the tube is (neglect viscous forces)

A liquid is flowing through a pipe of non-uniform cross-section. At a point where area of cross-section of the pipe is less, match the following columns.

CENGAGE PHYSICS-NEWTON'S LAWS OF MOTION 1-Exercise 6.1

Explain why (a) A horse cannot pull a cart and run in empty space. ...
Text Solution
|
As shown in fig. two identical balls strike a rigid wall with equal sp...
Text Solution
|
Figure shows the position-time graph of a particle of mass 0.04kg. Sug...
Text Solution
|
A rubber ball of mass 50 g falls from a height of 5m and rebounds to a...
Text Solution
|
Water falls without splashing at a rate of 0.250 Ls^(-1) from a height...
Text Solution
|
A liquid of density rho is flowing with a speed v through a pipe of cr...
Text Solution
|
A 3-kg steel ball strikes a wall with a speed of 10.0ms^(-1) at an ang...
Text Solution
|
The magnitude of the net force exerted in the x direction on a 2.50-kg...
Text Solution
|
During a heavy rain hailstones of average size 1.0 cm in diameter fall...
Text Solution
|
A U-shaped smooth wire has a semi-circular bending between A and B as ...
Text Solution
|
Wind with a velocity 100km h^(-1) blows normally against one of the wa...
Text Solution
|