Calculate the entropy of ideal mixing when 2 m oles of `N_(2)`, 3 moles of `H_(2) and 2` moles of `NH_(3)` are mixed at constant temperature, assuming no chemical reaction is occurring.

If 2 litres of N_(2) is mixed 2 litres of H_(2) at a constant temperature and pressure. What will be the volume of NH_(3) formed?

2NH_(3) to N_(2) + 3H_(2) Find moles of H_(2) produced from 4 moles of NH_(3)

n mole of He and 2n mole of O_2 is mixed in a container. Then (C_p/C_v)_(mix) will be

n mole of He and 2n mole of O_2 is mixed in a container. Then (C_p/C_v)_(mix) will be

3 mole of O2 mixed with 5 moles of Argon at temperature T. Find total internal energy of system

3 mole of O2 mixed with 5 moles of Argon at temperature T. Find total internal energy of system

If 1 mole of H_(2) , 2 moles of O_(2) and 3 moles of N_(2) are mixed in a vessel and total pressure was found to be 12 atm then the partial pressure exerted by N_(2) in the vessel will be

If 1 mole of H_(2) , 2 moles of O_(2) and 3 moles of N_(2) are mixed in a vessel and total pressure was found to be 12 atm then the partial pressure exerted by N_(2) in the vessel will be