Find the pressure of saturated vapour as...

Find the pressure of saturated vapour as a function of temperature `p(tau)` if a temperature `T_0` its pressure equals `p_0`. Assume that : the specific latent heat of vaporization `q` is independent of `T`, the specific volume of liquid is negligible as compared to that of vapour, saturated vapour obeys the equation of state for an ideal gas. Investigate under what conditions these assumptions are permissible.

Similar Questions

Explore conceptually related problems

Assuming the saturated water vapour to be ideal, find its pressure at the temperature 101.1 ^@C .

The number of molecules in an ideal gas with a volume of V at pressure P and temperature T is 'n'. Write down the equation of state for this gas.

One mole of water being in equilibrium with a negligible amount of its saturated vapour at a temperature T_1 was completely converted into saturated vapour at a temperature T_2 . Find the entropy increment of the system. The vapour is assumed to be an ideal gas, the specific volume of the liquid is negligible on comparsion with that of the vapour.

Find the internal pressure p_i of a liquid if its density rho and specific latent heat of vaporization q are known. The heat q is assumed to be equal to the work performed against the forces of the internal pressure, and the liquid obeys the Van der Waals equation. Calculate p_i in water.

A small amount of water and its saturated vapour are enclosed in a vessel at a temperature t = 100^@C . How much (in per cent) will the mass of the saturated vapour increase if the temperature of the system goes up by Delta T = 1.5 K ? Assume that the vapour is an ideal gas and the specific volume of water is negligible as compared to that vapour.

Find the specific volume of saturated water vapour under standard pressure if a decrease of pressure by Delta = 3.2 kPa is known to decrease the water boiling temperature by Delta T = 0.9 K .

Similar Questions

Recommended Questions