Water in a river 20 m deep is flowing at a speed of 10 `ms^-1`. The shearing stress between the horizontal layers of water in the river in `Nm^-2` is (Coefficient of viscosity of water = `10^-3` SI units)

A river 10 m deep is flowing at 5ms^(-1) . The shearing stress between the horizontal layers of the river is ( eta=10^-(3) SI units)

A river 10 m deep is flowing at 5ms^(-1) . The shearing stress between the horizontal layers of the river is ( eta=10^-(3) SI units)

A river 10 m deep is flowing at 5ms^(-1) . The shearing stress between horizontal layers of the rivers is ( eta=10^-(3) SI units)

A river 10 m deep is flowing at 5ms^(-1) . The shearing stress between horizontal layers of the rivers is ( eta=10^-(3) SI units)

The velocity of water in a river is 18kmh^-1 near the surface. If the river is 5 m deep, find the shearing stress between the horizontal layers of water. The coefficient of viscosity of water =10^-2 poise.

The velocity of water in a river is 18kmh^-1 near the surface. If the river is 5 m deep, find the shearing stress between the horizontal layers of water. The coefficient of viscosity of water =10^-2 poise.

The velocity of water in a river is 18 km/h near the upper surface. The river 5 m deep. What is the shearing stress between the horizontal layers of water ? (Coefficient of viscosity of water= 10^(- 2) Poise)