The changes contracting bird flu from a properly cooked (above `100^(@)C`) chicken and egg are

Determine the change in enthalpy and internal energy when 1 mole of water completely vaporises at 100^(@)C and 1 atm pressure. [Latent heat of vaporisation of water=536 cal*g^(-1) ]

Calculate (1) the enthalpy change in the fusion of 100 g ice at 0^(@)C temperature and 1 atm pressure pressure (2) the enthalpy change in the vaporisation of 10g water at 100^(@)C temperature and 1 atm pressure. Givenn : Latent heat of ice at 0^(@)C temperature and 1 atm pressure =6.02kJ*mol^(-1) and latent heat of vaporisation of water at 100^(@)C temperature= 40.4kJ*mol^(-1) .

One mole of an ideal monatomic gas is heated at a constant pressure from 0^(@)C to 100^(@)C . Then the change in the internal energy of the gas is (given R = 8.32 J cdot mol cdot k^(-1))

What change will be observed if both mercury and water are heated from 0^(@)C ?

In a zero order reaction for every 10^(@)C rise of temperature , the rate is double . If the temperature is increased from 10^(@)C " to " 100^(@)C , the rate of the reaction will become -

What will be the change in internal energy if 10 g of air is heated from 20^(@)C to 30^(@)C at constant volume? Given , for air, c_(v) = 0.17 cal cdot g^(-1) cdot^(@)C^(-1) .

A thin square metal plate has side of length l_(0) . When the temperature of the plate is raised from 0^(@)C " to " 100^(@)C , its length increased by 1%. What is the percentage increase in area of the plate in this case?