A liquid flows through a pipe of 1.0 mm radius and 10cm length under a pressure `10^4` dyne `cm^(-2)`. Calculate the rate of flow and the speed of the liquid coming out of the tube. The coefficient of viscosity of the liquid is 1.25 centipoise.

A liquid flows throug ha pipe of 1.0 mm radius and 10 cm length under a pressure 10^(4) dyne cm^(-2) . Calculate the rate of flow and the speed of the liquid coming out of the tube. The coefficient of viscosity of the liquid is 1.25 centipoise.

A liquid flows throug ha pipe of 1.0 mm radius and 10 cm length under a pressure 10^(4) dyne cm^(-2) . Calculate the rate of flow and the speed of the liquid coming out of the tube. The coefficient of viscosity of the liquid is 1.25 centipoise.

A liquid Flows through a pipe 2.0 mm radius and 20 cm length under a pressure 10^(3)" dyne "cm^(-2) . Determine the rate of flow and the speed of the liquid coming out of the tube. The coefficient of viscosity of the liquid is 1.25 centipoise.

A liquid flows through a pipe 1.0 mm radius and 20 cm length under a pressure of 10^4 dyn e//cm^2 Calculate (i) the rate of flow and (ii) the speed of the liquid coming out of the tube. The coefficient of viscosity of liquid is 1.23 xx 0^(2) dyn e cm^(-2)s.

The rate of flow of liquid through a capillary tube in an experiment to determine the viscosity of the liquid increases

The rate of flow of liquid through a capillary tube in an experiment to determine the viscosity of the liquid increases

The rate of flow of liquid through a capillary tube in an experiment to determine the viscosity of the liquid increases

Two liquids are allowed to flow through two capillary tubes of length in the ratio 1:2 and radii in the ratio 2:3 under the same pressure difference. If the volume rates of flow of the liquids are in the ratio 8:9 the ratio fo their coefficients of viscosity is