An incompressible fluid flows steadily through a cylindrical pipe which has radius 2 R at point A and radius R at point B farther along the flow direction. If the velocity at point A is v, its velocity at point B is

In a laminar flow at a given point the magnitude and direction of the velocity of the fluid

The cross-sectionss of a pipe at two points A and B are in the ratio 1.4. If the speed of water flowing through the pipe at point A is v, its speed at point B is

A wheel of radius R rolls on the ground with a unifrom velocity v . The velocity of topmost point releative to bottom must point is

In stremline flow, the velocity of a liquid at a given point is

An incompressible liquid flows through a horizontal tube as shown in the figure. Then the velocity 'v' of the fluid is:

An ideal fluid flows steadily in a pipe of varying cross section. Velocity at a point where radius is 3R is v, then its velocity at a point where radius is R is

Water flows steadily through a horizontal pipe of a variable cross-section. If the pressure of water is p at a point where the velocity of flow is v, what is the pressure at another point where the velocity of flow is 2v, rho being the density of water?

Water flows steadily through a horizontal pipe of variable cross-section. If the pressure of water is p at a point where the velocity of flow is v , at another point (pressure p' ), where the velocity of flow in etav : The following statements are given below

In case of pure rolling, what will be the velocity of point A of the ring of radius R?