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

A liquid flows through a horizontal pipe of varying cross section at a rate of 10 litres per minute. Find the velocity of liquid at a point where radius of pipe is 5 cm.

Water flows through a horizontal pipe of varying cross-section at the rate of 20 litres per minuts , determine the velocity of water at a point where diameter is 4 cm

Water flows through a horizontal pipe of varying area of cross-section at the rate 5 cubic metre per minute. What is the velocity of water at a point where pipe radius is 10 cm?

Water flows through a horizontal pipe of varying area of cross-section at the rate of 10 cubic metre per minute. Determine the velocity of water at a point where radius of pipe is 10cm.

A fluid is flowing through a horizontal pipe of verying cross - section, with speed v ms^(-1) at a point where the pressure is P Pascal . At another point where pressure is P/2 Pascal its speed is V ms^(-1) . If the density of the fluid is rho " kg "m^(-3) and the flow is stremline, then V is equal to :

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?

An ideal fluid flows through a pipe of circular cross section with diameters 5 cm and 10 cm as shown. The ratio of velocities of fluid at A and B is

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

An ideal fluid flows through a pipe of circular cross section of radius r at a speed v_(0) . Now a viscous liquid is made to flow through the pipe at the same volume flow rate (measured in m^(3)s^(–1) ). Find the maximum speed of a fluid particle in the pipe.