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

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 .

IF the volume of a body Is V_1 and total volume of the molecules of the body is V_2 , then

Two satellite of masses m_1 and m_2 (m_1 gt m_2) are revolving around the earth in orbits of radii r_1 and r_2 (r_1gt r_2) with velocities v_1 and v_2 respectively . In this case

Relative viscosity of a liquid with respect to H_2O is measured using Ostwald’s viscometer. Time of flow of the given volume through a fine capillary was 60 s with water and 80 s with the liquid. 25 mL of the liquid weighed 28 g while 25 mL of H^2O weighed 25 g. What is relative viscosity of the liquid ?

Two solid spheres S_1 and S_2 of same uniform density fall from rest under gravity in a viscous medium and after some time, reach terminal velocities v_1 and v_2 respectively. If ratio of masses (m_1)/(m_2)=8 , then (v_1)/(v_2) will be equal to

Apparent weights of a body immersed in a liquid at the temperature t_(1) is W_(1) and temperature t_(2) is W_(2) . Coefficients of volume expansion of the liquid and the solid are gamma and gamma_(s) respectively. The value of W_(2)-W_(1) will be