A 2.7-kg piece of aluminum at 28.5 ∘C is placed in 1.0 kg of water in...

4.5 kg of water at 23 ∘C is mixed with 4.5 kg of water at 46...

4.5 kg of water at 23 ∘C is mixed with 4.5 kg of water at 46 ∘C in a well-insulated container. Estimate the net change in entropy of the system

A 1.70-kg piece of aluminum that has a temperature of −147 °C is added to 1.00...

A 1.70-kg piece of aluminum that has a temperature of −147 °C is added to 1.00 kg of water that has a temperature of 3.1 °C. At equilibrium the temperature is 0.0°C. Assuming that the heat exchanged with the container and the surroundings is negligible, determine the mass of water that has been frozen into ice.

What is the total entropy change for a 0.410 kg piece of ice at an initial...

What is the total entropy change for a 0.410 kg piece of ice at an initial temperature of 0.00 degC if it is placed in a Styrofoam cup having 2.42 kg of water at an initial temperature of 22.1 degC. (assume the heat transfers in liquid form happen at the average temperature of each individual liquid)

2.0 kg of water at 37 ∘C is mixed with 2.0 kg of water at 48...

2.0 kg of water at 37 ∘C is mixed with 2.0 kg of water at 48 ∘C in a well-insulated container. Estimate the net change in entropy of the system. Express your answer to two significant figures and include the appropriate units.

In a well-insulated calorimeter, 1.0 kg of water at 20 ∘ C is mixed with 1.0...

In a well-insulated calorimeter, 1.0 kg of water at 20 ∘ C is mixed with 1.0 g of ice at 0 ∘ C . What is the net change in entropy Δ S sys of the system from the time of mixing until the moment the ice completely melts? The heat of fusion of ice is L f =3.34× 10 5 J/kg . Note that since the amount of ice is relatively small, the temperature of the water remains nearly...

A) Suppose 0.395 kg of water initially at 41.5°C is poured into a 0.300 kg glass...

A) Suppose 0.395 kg of water initially at 41.5°C is poured into a 0.300 kg glass beaker having a temperature of 25.0°C. A 0.500 kg block of aluminum at 37.0°C is placed in the water, and the system insulated. Calculate the final equilibrium temperature of the system. °C B) A 21.5 kg gold bar at 27.0°C is placed in a large, insulated 0.800 kg glass container at 15.0°C with 2.00 kg of water at 25.0°C. Calculate the final equilibrium temperature....

A piece of ice at 0 0C is put in 2.00 Kg of water at 20...

A piece of ice at 0 0C is put in 2.00 Kg of water at 20 0C. The equilibrium temperature of the system becomes 5 0C. (Lf=333 kJ/Kg, cw=4186 J/Kg, TK=TC+273.15) a) Find the mass of ice? Kg b) Find the entropy change of ice? J/K c) Find the entropy change of water? J/K d) Find the total entropy change of sysem? J/K

A 1.0 × 10^2 g Aluminum block. at 100 ° C it is placed in a...

A 1.0 × 10^2 g Aluminum block. at 100 ° C it is placed in a calorimeter containing 1.0 × 10^2 g of water at 10ºC Suppose there is no heat loss. What is the final temperature of the mixture?

A Styrofoam cup holds 0.297 kg of water at 23.5°C. Find the final equilibrium temperature (in...

A Styrofoam cup holds 0.297 kg of water at 23.5°C. Find the final equilibrium temperature (in degrees Celsius) after a 0.153 kg block of aluminum at 85.1°C is placed in the water. Neglect any thermal energy transfer with the Styrofoam cup. The specific heats of water and aluminum are cwater = 4186 J (kg · °C) and cAl = 900 J (kg · °C) . °C

2.50 kg of water at 90 (degrees of C) is contained in a thermally-isolated container. A...

2.50 kg of water at 90 (degrees of C) is contained in a thermally-isolated container. A 1.50 kg chunk of ice at - 10 degrees C is added to the water, in the same thermally isolated container. a.) Describe the final state of the system when it has reached thermal equilibrium, give the final temperature and the amount of ice let (if any). b.) Find the net change in entropy of the system during this process.