Find out the values of co-ordinates at point A, B, C in terms of pressure , volume and temperature and draw curve.

Find out the values of co-ordinates at point A, B, Cin terms of pressure , volume and temperature and draw curve.

Find out the temperature at point x.

if cos A=x then find out the value of sin A in terms of x

Find out pressure at points A and B also find angle theta

Find the Cartesian co-ordinates of point whose polar co-ordinates are (4, (pi)/(3)) .

Two vessels A and B of equal volume (V_0) are connected by a narrow tube which can be closed by a value. The vessels are fitted with piston which can be moved to change the volumes. Initially, the valve is open and the vessels contain an ideal gas (C_p / C_v = gamma ) at atomspheric pressures (P_0) and atmoshpeheric temperature (T_0) . The walls of the vessels A are diathermic and those of B are adiabatic. The value is now closed and the pistons are slowly pulled out to increase the volumes of the of the vessels to dobuled the original value.(a) Find the temperatures and pressures in the two vessels. (b) The value is now opened for sufficeint time so that the gases acquire a common tempertures and pressures . Find the new values of the temperatuere and the pressures.

Find the co -ordinates of the mid point of the join of the points A(3,5,7) and B(-3,-3,1)

For two samples of ideal gases A and B curves are plotted n vs V (volume of container ) at 16.42 atm pressure. Then temperature of A and B respectively are:

If the volume of air at 0^(@)C and 10 atmospheric pressure is 10 litre . Its volume, in litre, at normal temperature and pressure would be