The flow rate from a tap of diameter 1.25 cm is 3 lit/min. The coefficient of viscosity of water is Pas. The nature of flow is :
1. Turbulent
2. Laminar
3. Neither laminar nor turbulent
4. data inadequate
In which one of the following cases will the liquid flow in a pipe be most streamlined ?
(1) Liquid of high viscosity and high density flowing through a pipe of small radius
(2) Liquid of high viscosity and low density flowing through a pipe of small radius
(3) Liquid of low viscosity and low density flowing through a pipe of large radius
(4) Liquid of low viscosity and high density flowing through a pipe of large radius
The Reynolds number of a flow is the ratio of
(1) Gravity to viscous force
(2) Gravity force to pressure force
(3) Inertia forces to viscous force
(4) Viscous forces to pressure forces
If the Reynolds number of water flowing in a pipe in CGS units is 1000, then the Reynolds number of water in SI units will be :
1.
2.
3.
4.
Two horizontal pipes have radii in ratio 1 : 2 and
lengths in ratio 1 : 2. Same viscous fluid flows at
same pressure difference in both the pipes. The flow
rates are in the ratio
1. 1 : 2
2. 1 : 4
3. 1 : 8
4. 1 : 16
The velocity of water in a river is:
1. | same everywhere. |
2. | more in the middle and less near its banks. |
3. | less in the middle and more at banks. |
4. | increases from one bank to other. |
The value of Reynold's number for which the flow of water through a pipe becomes turbulent is:
(1) 500
(2) 900
(3) 750
(4) 3000
What is the largest average velocity of blood flowing in an artery of radius \(2\times 10^{-3}\) m if the flow must remain laminar?
(Take the viscosity of blood to be \(2.084\times 10^{-3}\) Pa-s and density of blood to be \(1.06\times 10^3\) kg/m3).
1. \(0.459\) m/s
2. \(0.0987\) m/s
3. \(0.983\) m/s
4. \(0.0897\) m/s
In streamline flow of liquid, the total energy of liquid is constant at:
1. all points
2. inner points
3. outer points
4. none of the above
Along a streamline:
1. the velocity of a fluid particle remains constant.
2. the velocity of all fluid particles crossing a given position is constant.
3. the velocity of all fluid particles at a given instant is constant.
4. the speed of a fluid particle remains constant.