An ideal gas undergoes isothermal compression from `5 m^(3)` to `1 m^(3)` against a constant external pressure of `4Nm^(-2)`. Heat released in this process is used to increase the temperature of 1 mole of Al. If molar heat capacity of Al is 24 J `mol^(-1)K^(-1)`, the temperature of Al increases by
Calculate the number of KJ necessary to raise the temperature of 60.0 g of aluminium from 35^(@) to 55^(@)C . Molar heat capcacity of Al is 24 J mol^(-1)K^(-1)
Calculate the number of KJ necessary to raise the temperature of 60.0 gm of aluminium from 35^(@) to 55^(@)C . Molar heat capcacity of Al is 24 J mol^(-1)K^(-1)
Calculate the number of kJ of heat necessary to raise the temperature of 60.0 g of aluminium from 35^(@)C to 55^(@)C . Molar heat capacity of Al is 24 J g m^(-1) .
Work done in expansion of an ideal gas from 4 litre to 6 litre against a constant external pressure of 2.1 atm was used to heat up 1 mole of water at 293 K . If specific heat of water is 4.2 J g^(-1)K^(-1) , what is the final temperature of water?
The heat required to increase the temperature of 4 moles of a monoatomic ideal gas from 273 K to 473 K at constant volume is
The work done when 5 moles of an ideal gas expands isothermally from 45 m^3 " to " 55 m^3 against a constant pressure of 100 pascal in J/mol is
