A liquid of density `rho=1000kg//m^(3)` viscosity `eta=0.1 Ns//m^(2)` is flowing down in vertical pipe of large cross section. A small ball of density `rho_(0)=100 kg//m^(3)` and `r=5cm` will be at rest in flowing liquid, if velocity of flowing liquid is `10 k m//s`. Then find the value of `k`.

A liquid of density 10 ^(3) kg/m^(3) and coefficient of viscosity 8 xx10^(-2) decapoise is flowing in a tube of radius 2 cm with speed 2 m/s. The. Reynold’s number is

The terminal speed of a sphere of gold of density 22.5 kg//m^(3) is 40 cm/s in a viscous liquid of density 2.5 kg//m^(3) Find the terminal speed of a sphere of aluminium of density 15.5 kg//m^(3) of same size in same liquid.

Reynolds number for a liquid of density rho , viscosity eta and flowing through a pipe of diameter D, is given by

A pipe of circular cross-section of inner radius r and outer radius 2r is bent into a semi circle as shown in the diagram. A fluid of density rho=10^(3)kg//m^(3) is flowing through it. The breaking stress of the material of the pipe is 3xx10^(7)n//m^(2) . The maximum velocity with which the fluid can flow in the pipe is kxx100 m//s . find value of k .

A cubical tank of side 1 m is filled with 800 kg of a liquid. Find the density of liquid in kg m^(-3)

A non viscous liquid of constant density 10^(3) kg//m^(3) flows in stream line motion along a vertical tube PQ of variable cross-section. Height of P and Q are 2m and 2.5m respectively. Area of tube at Q is equal to 3 times the area of tube at 'P'. Then work done per unit volume by pressure as liquid flows from P and Q. Speed of liquid at 'P' is 3 m//s .

A non viscous liquid of constant density 10^(3) kg//m^(3) flows in stream line motion along a vertical tube PQ of variable cross-section. Height of P and Q are 2m and 2.5m respectively. Area of tube at Q is equal to 3 times the area of tube at 'P'. Then work done per unit volume by pressure as liquid flows from P and Q. Speed of liquid at 'P' is 3 m//s .

Water is flowing in a pipe of diameter 6 cm with an average velocity 7.5 cm^(-1).s^(-1) and its density is 10^(3) kg m^(-3) . What is the nature of flow ? Given coefficient of viscosity of water is 10^(-3) kgm^(-1) s^(-1).

A block of rectangular size of mass m and area of cross section A, float in a liquid of density rho .If we give a small vertical displacement from equilibrium, It undergoes SHM with time period T, then

Flow rate of blood through a capillary of cross - sectional are of 0.25 m^(2) is 100cm^(3)//s . The velocity of flow of blood iis