The maximum work done in expanding `1.6 xx 10^(-2)` oxygen at 300 k and occupying a volume of `10 cm^ 3` isothermally until the volume of `10 dm^3` isothermally unti the volume becomes `50 dm^2 is ( R= 8.314 JK6^(-1) mol^(-1))`

The maximum work done in expanding 16 g oxygen at 300K and occupying a volume of 5 dm^3 isothermally until the volume become 25 dm^3 is:

Calculate the maximum work done in expanding 16 g of oxygen at 300K and occupying a volume of 5dm^5 isothermally until the volume becomes 25 dm^5 .

Calculate the maximum work done in expanding 16g of oxygen at 300K occupying volume of 5dm^(3) and isothermally untill the volume become 25dm^(3) ?

Calculate the maximum work done in expanding 16g of oxygen at 300K occupying volume of 5dm^(3) and isothermally untill the volume become 25dm^(3) ?

(i) A sample of a gas initially at 27^(@) C is compressed from 40 litres to 4 litres adiabatically and reversibly. Calculate the final temperature (C_(v) =2.5 R) . (ii) Calculate the maximum work done in expanding 16 gm of oxygen at 300 K and occupying, a volume of 5 dm^(3) isothermally until the volume becomes 25 dm^(3) . (iii) 10 gm of argon gas is compressed isothermally and reversibly at a temperature of 27^(@) C from 10 litre to 5 litre. Calculate q, w .DeltaE and DeltaH for this process.

Calculate the maximum work done (in multiple of 10^(3) ) in expanding 16g of oxygen at 300K and occupying a volume of 5 dm^(3) isothermally, until the voume becomes 25 dm^(3) (Give you anwer as nearest integer)

A gram mole of a gas at 27^@C expands isothermally until its volume is doubled. Calculate the amount of work done. (R=8 J mol^(-1) K^(-1))

The work done when 1.6 xx 10^(-2) kg of oxygen at 300 K are expended isothermally and reversibly , till its volume is tripled is (R=8.314 JK^(-1) mol^(-1))

6 moles of ideal gas are expanded isothermally and reversibly from 20m^3 to 40m^3 at 300k. Calculate work done (R = 8.314 Jk^(-1) mol^(-1)) .