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))`

What is the entropy change for the conversion of one gram of ice to water at 167 K and one atmospheric pressure ? [Delta H_("fussion") = 6.025 kJ mol^(-1)]

Calculate the entropy change for the conservation of following: (a) 1g ice to water at 273K , DeltaH_f for ice=6.025kJmol^(-1) . (b) 36g water to vapour at 373K, DeltaH_v for H_2O=40.63kJmol(-1)

Calculate the change in entropy for the fusion of 1 mole of ice (water). The melting point of water is 273 K and molar enthalpy of funsion for water =6.0 kJ mol^(-1)

Calculate the entropy change accompanying the conversion of 1 mole of ice at 273.1 K and 1 atm pressure into steam at 373.1 K and 1 atm pressure. At 273.1 K, the molar heat of fusion of ice, DeltaH_(f) is 6.00 kJ mol^(-1) and at 373.1 K, the molar heat of vapourization of water, DeltaH_(v) , is 40.6 kJ mol^(-1) . Also assume that the molar heat capacities, C_(p) , in the temperature range 373.1 to 273.1 K remains constant. Given that C_(p) = 75.25 m mol^(-1)K^(-1) and log 13.66 = 1.1354.

The entropy change in the conversion of water to ice at 274 K for the system is -22.13 JK^(-1)mol^(-1) and for surrounding is +22.05 JK^(-1)mol^(-1) . State whether the process is spontaneous or non-spontaneous.

Calculate the change in entropy for the fusion of 1 mol of ice. The melting point of ice is 273 K and molar enthalpy of fusion of ice = 6KJmol^(-1)