The entropy change associated with the c...

The entropy change associated with the conversion of 1 kg of ice at 273 K to water vapours at 383 K is :
(Specific heat of water liquid and water vapour are `4.2kjK^(-1)kg^(-1)` and `2.0kjK^(-1)kg^(-1)` , heat of liquid fusion and vapourisation of water are `334kj kg^(-1)` and `2491kj kg^(-1)`, respectively ). (`log 273=2.436,log373=2.572, log 383=2.583`)

`7.90" kJ kg"^(-1)K^(-1)`

`2.64" kJ kg"^(-1)K^(-1)`

`8.49" kJ kg"^(-1)K^(-1)`

`9.26" kJ kg"^(-1)K^(-1)`

Text Solution

AI Generated Solution

Similar Questions

Explore conceptually related problems

Entropy change involve in conversion of 1 mole of liquid water at 373K to vapour at the same temperature (latent heat of vaporisation of water= 2.257kJg^(-1))

Calculate the entropy change involved in the vaporisation of water at 373 K to vapours at the same temperature(Latent heat of vaporisation = 2.275 kJ/g).

Find the heat energy required to convert 10 g ice at 0^(@)C to steam at 100^(@)C . Specific latent heat of melting and vapourization are 336 KJ kg^(-1) and 2260 KJ kg^(-1) , respectively, and specific heat of water is 4200 J kg^(-1)K^(-1).

What is entropy change for the conversion of one gram of ice to water at 273 K and one atmospheric pressure? (DeltaH_("fusion")=6.025kJ" "mol^(-1))

How much heat energy is gained when 5 kg of water at 20^(@)C is brought to its boiling point (Specific heat of water = 4.2 kj kg c)

Text Solution

Similar Questions

Recommended Questions