An 8 g ice cube at -10 °C is put into a thermos flask containing 100 cm³ of water at a temperature of 20 °C. By how much has the entropy of the cube-water system changed when the final equilibrium state is reached?

Calculate the change in entropy of the cube-lake system as the ice cube comes to thermal equilibrium with the lake. The specific heat of ice is 2220 J/kg·K, and the latent heat of fusion is 333x10³ J/kg.

A 6.00g ice cube at -22.0°C is put into a Thermos flask containing 140 cm3 of water at 24.0°C. By how much has the entropy of the cube-water system changed when a final equilibrium state is reached?

An 6.0 g ice cube at -19.0°C is put into a Thermos flask containing100 cm3 of water at 23.0°C. By how much has the entropy of thecube-water system changed when a final equilibrium state isreached? The specific heat of ice is 2200 J/kg K and that of liquidwater is 4187 J/kg K. The heat of fusion of water is 333 × 103J/kg.

An 18g ice cube is put into a thermos flask containing 120cc ofwater at 23C.What is the change in entropy of the cube water systemwith a final equilibrium state is reached. The specific heat of theice is 2220 j/kg.

CI=2220j/kg Cw=4180 j/kg Lice=3.33*10^5 MI=18g Mw=120 g TIi=-12CTWi=23C
I believe which is

MiTIiCi-MiLice+TwiMwCw/MiCw+MwCw = 8.7776C

What i need to know is how to write out the change in entropy foreach element of the system, including solid to liquid phasechange.