In a thermally insulated tube of cross sectional area `4cm^(2)` a liquid of thermal expansion coefficeint `10^(3)K^(-1)` is flowing. Its velocity at the entrance is `0.1m//s`. At the middle of the tube a heater of a power of 10 kW is heating the liquid. The specific heat capacity of the liquid is 1.5 kJ/(kg,K), and its density is `1500kg//m^(3)` at the entrance.
Q. What is the density of liquid at the exit?

In a thermally insulated tube of cross sectional area 4cm^(2) a liquid of thermal expansion coefficeint 10^(3)K^(-1) is flowing. Its velocity at the entrance is 0.1m//s . At the middle of the tube a heater of a power of 10 kW is heating the liquid. The specific heat capacity of the liquid is 1.5 kJ/(kg,K), and its density is 1500kg//m^(3) at the entrance. Q. The rise in temperature of the liquid as it pass through the tube is

In a thermally insulated tube of cross sectional area 4cm^(2) a liquid of thermal expansion coefficeint 10^(3)K^(-1) is flowing. Its velocity at the entrance is 0.1m//s . At the middle of the tube a heater of a power of 10 kW is heating the liquid. The specific heat capacity of the liquid is 1.5 kJ/(kg,K), and its density is 1500kg//m^(3) at the entrance. Q. How much bigger is the volume rate of flow at the end of the tube than at the entrance in cubic meters?

Calculate the speed of longitudinal sound wave in a liquid. The bulk modulus for the liquid is 20xx10^(9)N//m^(2) and its density is 9.5xx10^(3)kg//m^(3) .

Calculate the speed of longitudinal sound wave in a liquid. The bulk modulus for the liquid is 20xx10^(9)N//m^(2) and its density is 9.5xx10^(3)kg//m^(3) .

Two liquids have the densities in the ratio of 1:2 and specific heats in the ratio of 2:1. The ratio of thermal capacity of equal volume of those liquids is

Water flow at a speed of 7cm s^(-1) through a pipe of tube of radius 1.5 cm . What is the nature of the flow ? Cofficient of viscosity of water is 10^(-3) kg m^(-1) s^(-1) and its density is 10^(3) kg m^(-3)

The speed of sound in a liquid is 1500 ms^(-1) .The density of the liquid is 1.0xx10^(3) kg m^(-3) .Determine the bulk modulus of elasticity of the liquid.

An electric heater of power 600 W raises the temperature of 4.0 kg of a liquid from 10.0^@ C to 15.0^@ C in 100 s. Calculate : (i) the heat capacity of 4.0 kg of liquid, and (ii) the specific heat capacity of liquid.

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