A square plate of 1m side moves parallel to a second plate with velocity 4m/s. A thin layer of water exist between plates. If the viscous force is 2N and the coefficient of viscosity is 0.01 poise then find the distance between the plates in mm.

A square plate of 0.1 m side moves parallel to another plate with a velocity of 0.1 ms^(-1) both plates immersed in water. If the viscous force is 0.02 N and the coefficient of viscosity 0.01 poise, what is the distance apart?

A square plate 0.1 m side moves parrarel to second plate with a velocity of 0.1 ms^(-1) ,both plate being immersed in water .If the viscous force is 0.002 N and the cofficient of viscosity 0.001 poise, distance between the plate is

A thin square plate of side varphi=10 cm is dragged with constant velocity v=3 cm/s in an oil . The width 'd' of the oil column is 2mm. Square plate is placed symmetrically as shown in the figure. Assumed velocity of layer of oil at the end is negligible. The coefficient of viscosity is 150 poise. Find the horizontal force (in Newton) required to move the square plate with constant velocity

A metal square plate of 10cm side rests on 2mm thick caster oil layer. Calculate the horizontal force needed to move the plate with speed 3cm s^(-1) : ( Coefficient of viscosity of caster oil is 15 poise. )

Figure shows two metallic plates A and B placed parallel to each other at a seperation d. A uniform electric field E exists between the plates in the direction from plate B to plate A. Find the potential difference between the plates.

Between a plate of area 100 cm^(2) and another plate of area 100 m^(2) there is a 1 mm , thick layer of water, if the coefficient of viscosity of water is 0.01 poise, then the force required to move the smaller plate with a velocity 10 cms^(-1) with reference to large plate is

A potential difference of 600 V is applied across the plates of a parallel plate condenser. The separation between the plates is 3 mm. An electron projected vertically, parallel to the plates, with a velocity of 2xx10^(6)m//s moves undeflected between the plates. Find the magnitude of the magnetic field (in T) in the region between the condenser plates. (Neglect the edge effects) square . (Charge of the electron =1.6xx10^(-19)C )

A potential difference of 600 volts is applied across the plates of a parallel plate consenser . The separation between the plates is 3mm . An electron projected vertically, parallel to the plates , with a velocity of 2 xx 10^(6) m//sec moves underflected between the plates. Find the magnitude and direction of the magnetic field in the region between the condenser plates. ( Neglect the edge effects). ( Charge of the electron = -1.6xx10^(-19) coulomb)

A metal plate 0.04m^(2) in area is lying on a liquid layer of thickness 10^(-3)m and coefficient of viscosity 140 poise. Calculate the horizontal force needed to move the plate with a speed of 0.040 m/s.

A parallel -plate capacitor with the plate area 100cm^2 and the separation between the plate 1.0cm is connected across a battery of emf 24 volts .Find the force of attraction between the plates.