You have 100 g of water at 30◦C to which you add 50 g of ice...

cup of iced water has 50 g of ice cubes in 100 g of water all...

cup of iced water has 50 g of ice cubes in 100 g of water all at 0 degrees celsius in a room where the air temp if 27 degrees celsius. soemtime later all the ice cubes melt into water still at 0 degrees celsius. what is the change in entropy of A) the iced water? what is the change in entropy for the room and the change in entropy for the "universe"?

Question: You have 100g of water at 30C to which you add 50g of ice at...

Question: You have 100g of water at 30C to which you add 50g of ice at 0C. Calculate the entropy change for the process. For this problem I solved for the final temperature, Tf, and got that it is equal to 17.333 C = 290.483 K I have to solve for the change in entropy, though. How would I go about doing this? I was going to either use the formula: Delta S = n*Cp(molar)*ln(Tf/Ti) with n = (150/18.016 mols...

Steam initially at 100° C is mixed with 150 g of ice at -60.0° C, in...

Steam initially at 100° C is mixed with 150 g of ice at -60.0° C, in a thermally insulated container. When the system comes to thermal equilibrium, everything inside the container has been converted into liquid water at 50° C. What is the entropy change of the steam during the process? please show each step.

If 150 g of water at 30 deg C is mixed with 300 g of Ice...

If 150 g of water at 30 deg C is mixed with 300 g of Ice at 0 deg C, the total change in entropy will be Properties of Water: Heat of Fusion hF334 J/g Heat of VaporizationHV2264.76 J/g Specific Heat of IceCice2.080 J/g/K Specific Heat of WaterCwater4.1813 J/g/K Specific Heat of VaporCvapor2.11 J/g/K a. 18800 J/K b. 298 J/K c. 68.9 J/K d. 3.53 J/K

We drop a 22.8 g ice cube at 0∘C into 1000 g of water at 20∘C....

We drop a 22.8 g ice cube at 0∘C into 1000 g of water at 20∘C. Find the total change of entropy of the ice and water when a common temperature has been reached.

You add 50.0 g of ice initially at ‒20.0 °C to 1.00 x 102 mL warm...

You add 50.0 g of ice initially at ‒20.0 °C to 1.00 x 102 mL warm water at 67.0 °C. When all the ice melts, the water temperature is found to be somewhere above 0 °C. Calculate the final temperature of the water. [ Cice = 2.06 J/g⋅°C; CH2O = 4.184 J/g⋅°C; dH2O = 1.00 g/mL; heat of fusion of water = 333 J/g ]

An insulated container has 2.00kg of water at 25◦C to which an unknown amount of ice...

An insulated container has 2.00kg of water at 25◦C to which an unknown amount of ice at 0◦C is added. The system comes to an equilibrium temperature of 20◦C. The heat capacity for water is 4190 J and the heat of fusion for ice is kg·K kJ LF =334kg. (a) Determine the amount of ice that was added to the water. (b) What is the change in the entropy associated with the ice melting? (c) What is the change in...

A 102 g piece of ice at 0.0°C is placed in an insulated calorimeter of negligible...

A 102 g piece of ice at 0.0°C is placed in an insulated calorimeter of negligible heat capacity containing 100 g of water at 100°C. Find the entropy change of the universe for this process? 135 J/K 134 J/K is wrong,

A 100-g piece of ice at 0.0oC is placed in an insulated calorimeter of negligible heat...

A 100-g piece of ice at 0.0oC is placed in an insulated calorimeter of negligible heat capacity containing 100 g of water at 100oC. (a) What is the final temperature of the water once thermal equilibrium is established? (b) Find the entropy change of the universe for this process.

When 15.0 g of ice at 0°C is melted in 100 g of water at 20.0°C,...

When 15.0 g of ice at 0°C is melted in 100 g of water at 20.0°C, the final temperature is 9.5°C. Find the heat of fusion of ice, based on this data.