1 mole of `CaCO_(3)`is heated in a closed container fitted with a frictionless movable piston at 1 atm, 300 K. Calculate the magnitude of work obtained (in cal)
[Use :` R=2 "cal"//"K-mole"]`

For the reaction A(g)+2B(s)toC(l)+D(g)," "Delta H=-40 kJ//"mole" 10 mole of each A and B are mixed in a closed rigid container and allowed to react at 300 K. Calculate the heat transfer (in kJ) occurs in the process. [Use : R=8.3 "J"//"K-mole" ]

One mole of an ideal monoatomic gas undergoes the following cyclic process. Calculate the magnitude of work (in cal) in a cycle. (Use: ln 2 = 0.7)

One mole of an ideal gas at 27^(@) ,8.21 atm absorbs 420 cal of heat during a reversible isothermal expansion. Calculate the final volume (in litre) of gas. [Use: R=0.0821 " litre-atm"//"K-mole"]

1 mole of an ideal gas undergoes an isothermal reversible expansion form 10 atm to 1 atm at 300 K. What will be the work done ?

From the relation PV = RT, calculate the value of the constant R for one gram mole of an ideal gas (in cal//K )

A 10 L "container at" 300K "contains" CO_(2) "gas at pressure of" 0.2 "atm and and excess solid" CaO ("neglect the volume of solid" CaO) . The volume of container is now decreased by moving the movable piston fitted in the container. What will be the maximum volume of container when pressure of CO_(2) attains its maximum value given that CaCO_(3)(s)hArrCaO(s)+CO_(2)(g) K_(P)=0.800 "atm"

It is observed that an combustion of 5.6 g of but-1ene(g) 70 kcal of heat is liberated in a closed rigid vessel at 300 K. What could be a possible value of abs(DeltaH_(combustion)^(@)) of gaseous cyclone propane [Take : R=2 cal // K mole]?

One mole of an ideal monoatomic gas at 1 atm, 300 K undergo a process in which pressure of gas is 8 atm then calculate W (in cal).