Free energy change of mixing two liquid substances is a function of the
Free energy change of mixing two liquid substances is a function of the
For an ideal solution, the value of activity co-efficient is
For an ideal solution, the value of activity co-efficient is
The freezing point of a liquid decreases when the pressure is increased, if the
The freezing point of a liquid decreases when the pressure is increased, if the liquid __________ while freezing.
A/an __________ system is exemplified by a vessel containing a volatile liquid i
A/an __________ system is exemplified by a vessel containing a volatile liquid in contact with its vapor.
During Joule-Thomson expansion of gases
During Joule-Thomson expansion of gases
The entropy change in a reversible isothermal process, when an ideal gas expands
The entropy change in a reversible isothermal process, when an ideal gas expands to four times its initial volume is
Heat of reaction at constant volume is identified with __________ change.
Heat of reaction at constant volume is identified with __________ change.
As pressure approaches zero, the ratio of fugacity to pressure $$left( {frac{{
As pressure approaches zero, the ratio of fugacity to pressure $$left( {frac{{text{f}}}{{text{P}}}} right)$$ for a gas approaches
Change of state namely evaportation condensation, freezing and melting is an ___
Change of state namely evaportation condensation, freezing and melting is an __________ process.
The theoretical minimum work required to separate one mole of a liquid mixture a
The theoretical minimum work required to separate one mole of a liquid mixture at 1 atm, containing 50 mole % each of n- heptane…
The most important application of distribution law is in
The most important application of distribution law is in
When liquid and vapour phases of one component system are in equilibrium (at a g
When liquid and vapour phases of one component system are in equilibrium (at a given temperature and pressure), the molar free energy is
