To calculate the standard enthalpy change for the phase transition reaction of solid water ice at -10C into liquid water at 25C, we need to consider three steps:1. Heating the ice from -10C to 0C2. Melting the ice at 0C3. Heating the liquid water from 0C to 25CFirst, let's calculate the enthalpy change for each step:1. Heating the ice from -10C to 0C:q1 = mass specific heat capacity of ice temperature changeq1 = m 2.09 J/gC 0 - -10 Cq1 = 20.9 m J where m is the mass of water in grams 2. Melting the ice at 0C:q2 = moles enthalpy of fusionq2 = m/18.015 mol 6.01 kJ/molq2 = 0.3335 m kJ3. Heating the liquid water from 0C to 25C:q3 = mass specific heat capacity of liquid water temperature changeq3 = m 4.18 J/gC 25 - 0 Cq3 = 104.5 m JNow, let's add the enthalpy changes for all three steps to find the total standard enthalpy change:Total enthalpy change = q1 + q2 + q3Total enthalpy change = 20.9 m J + 0.3335 m kJ + 104.5 m JTotal enthalpy change = 20.9 + 104.5 m J + 0.3335 m kJTotal enthalpy change = 125.4 m J + 0.3335 m kJTo convert the enthalpy change in kJ, divide by 1000:Total enthalpy change = 0.1254 m kJ + 0.3335 m kJTotal enthalpy change = 0.4589 m kJSo, the standard enthalpy change for the phase transition reaction of solid water ice at -10C into liquid water at 25C is 0.4589 m kJ, where m is the mass of water in grams.