If `eta_(1) and eta_(2)` are the coefficients of viscosity of two liquids, `d_(1) and d_(2)` their densities and `t_(1) and t_(2)` the flow times in Ostwald viscometer, then:

If V_(1) and V_(2)D be the volumes of the liquids flowing out of the same tube in the same interval of time and eta_(1) and eta_(2) their coefficients of viscosity respectively then

In dimension of circal velocity v_(0) liquid following through a take are expressed as (eta^(x) rho^(y) r^(z)) where eta, rhoand r are the coefficient of viscosity of liquid density of liquid and radius of the tube respectively then the value of x,y and z are given by

If eta represents the coefficient of viscosity and T the surface tension. Then the dimensions of T//eta are same as that of

If equal masses of two liquids of densities d_(1) and d_(2) are mixed together, the density of the mixture is

When a liquid flows in a tube, there is relative motion between adjacent layers of the liquid. This force is called the viscous force which tends to oppose the relative motion between the layers of the liquid. Newton was the first person to study the factors that govern the viscous force in a liquid. According to Newton’s law of viscous flow, the magnitude of the viscous force on a certain layer of a liquid is given by F = - eta A (dv)/(dx) where A is the area of the layer (dv)/(dx) is the velocity gradient at the layer and eta is the coefficient of viscosity of the liquid. A river is 5 m deep. The velocity of water on its surface is 2 ms^(-1) If the coefficient of viscosity of water is 10 ^(-3 ) Nsm ^(-2) , the viscous force per unit area is :

Two liquids of densities rhp_(1) and rho_(2) coefficient of viscosity eta_(1) and eta_(2) are found to flow through a capillary tube at the same rate. What is the ration of eta_(1)//eta_(2) ?

A thin horizontal movable plate P is separated from two fixed horizontal plates P_1 and P_2 by two highly viscous liquids of coefficient of viscosity eta_(1) and eta_(2) as shown, where eta_2 = 4eta_(1) . Area of contact of movable plate with each fluid is same. If the distance between two fixed plates is h, then the distance h1 of movable plate from upper fixed plate such that the movable plate can be moved with a constant velocity by applying a minimum constant horizontal force F on movable plate is (assume velocity gradient to be uniform in each liquid).

An object weights m_(1) in a liquid of density d_(1) and that in liquid of density d_(2) is m_(2) . The density of the object is

When a liquid flows in a tube, there is relative motion between adjacent layers of the liquid. This force is called the viscous force which tends to oppose the relative motion between the layers of the liquid. Newton was the first person to study the factors that govern the viscous force in a liquid. According to Newton’s law of viscous flow, the magnitude of the viscous force on a certain layer of a liquid is given by F = - eta A (dv)/(dx) where A is the area of the layer (dv)/(dx) is the velocity gradient at the layer and eta is the coefficient of viscosity of the liquid. The dimensional formula for the coefficient of viscosity is :

Two liquids of densities d_(1) and d_(2) are flowing in identical capillaries under same pressure difference. If t_(1) and t_(2) are the time taken for the flow of equal quantities of liquid, then the ratio of coefficients of viscosities of liquids must be