Check the correctness of the relation
`V=(pipr^(4))/(8etal)`
where V is the volume per unit time of a liquid flowing through a tube of radius r and length `l, eta` is the coefficient of viscosity of the liquid and p is the pressure difference between the ends of the tube.

A small metal sphere of radius a is falling with a velocity v through a vertical column of a viscous liquid. If the coefficient of viscosity of the liquid is eta , then the sphere encounters an opposing force of

The coefficient of viscosity of a liquid flowing through a narrow tube is given by eta=(pipr^(4))/(8Vl) where r and l are the radius and the length of the tube p is the pressure difference between its two ends and V is the volume of liquid flowing per unit time. Here the values of p,r,V and l are 75 cm Hg, 0.35 cm, 1.5 cm^(3)//s and 20.5 cm. respectively , the errors in their measurement are 0.1 cm Hg. 0.01 cm, 0.1 cm^(3)//s and 0.1 cm. respectively. Estimate the percentage error in the computed value of eta .

A liquid flows through two capillary tubes A and B connected in series. The length and radius of B are twice those of a. What is the ratio of the pressure difference across A to that across B ?

Coefficient of viscosity of two liquids are eta_1 and eta_2 . The volume of those liquids flowing through a horizontal pipe for a fixed interval of time are v_1 and v_2 respectively. Then