183 g of water at 21°C is contained in a copper container of mass 347 g....

23 g of water at 21°C is contained in a glass container of mass 327 g....

23 g of water at 21°C is contained in a glass container of mass 327 g. An additional 149 g of water at 100°C is added. What is the final equilibrium temperature (in degrees C) if we treat the system's water and container as isolated? Use the heat capacity values from the this table

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.

Finding the equilibrium temperature of a mixture: An isolated thermal system consists of a copper container...

Finding the equilibrium temperature of a mixture: An isolated thermal system consists of a copper container filled with a quantity of liquid water and a quantity of ice. What is the fully thermalized state of the system (the final temperature, how much water, and how much ice) provided that initially there is 1.0 kg of ice at -100 degrees Celsius, 10 kg of water at 1 degrees Celsius, and the copper container has the mass of 15.0 kg and is...

A copper cylinder with a mass of 125 g and temperature of 345°C is cooled by...

A copper cylinder with a mass of 125 g and temperature of 345°C is cooled by dropping it into a glass beaker containing 565 g of water initially at 20.0°C. The mass of the beaker is 50.0 g and the specific heat of the glass is 840 J/kg∙K. What is the final equilibrium temperature of the system, assuming the cooling takes place very quickly, so that no energy is lost to the air? The specific heat of copper is 385...

Ice of mass 52.5 g at -10.7° C is added to 220 g of water at...

Ice of mass 52.5 g at -10.7° C is added to 220 g of water at 15.4° C in a 110 g glass container of specific heat 0.200 cal/g-°C at an initial temperature of 25.1° C. Find the final temperature of the system.

Ice of mass 46.5 g at -10.5° C is added to 214 g of water at...

Ice of mass 46.5 g at -10.5° C is added to 214 g of water at 14.4° C in a 110 g glass container of specific heat 0.200 cal/g-°C at an initial temperature of 23.7° C. Find the final temperature of the system. °C

An insulated container is used to hold 43.6 g of water at 20.6 °C. A sample...

An insulated container is used to hold 43.6 g of water at 20.6 °C. A sample of copper weighing 11.0 g is placed in a dry test tube and heated for 30 minutes in a boiling water bath at 100.0°C. The heated test tube is carefully removed from the water bath with laboratory tongs and inclined so that the copper slides into the water in the insulated container. Given that the specific heat of solid copper is 0.385 J/(g·°C), calculate...

A calorimeter made of copper (c=0.0923 cal/g-C°) of mass 300 g contains 450 grams of water....

A calorimeter made of copper (c=0.0923 cal/g-C°) of mass 300 g contains 450 grams of water. The container is initially at room temperature, 20°C. A 1 kg block of metal is heated to 100°C and placed in the water in the calorimeter. The final temperature of the system is 40°C. What is the specific heat of the metal?    A. 0.159 kcal/kg-C °    B. 0.591 kcal/kg-C° C. 0.519 kcal/kg-C° D. 0.915 kcal/kg-C°  

A 24 g block of ice is cooled to −63◦C. It is added to 572 g...

A 24 g block of ice is cooled to −63◦C. It is added to 572 g of water in a 98 g copper calorimeter at a temperature of 30◦C. Find the final temperature. The specific heat of copper is 387 J/kg ·◦C and of ice is 2090 J/kg ·◦C. The latent heat of fusion of water is 3.33 × 105 J/kg and its specific heat is 4186 J/kg·◦C. Answer in units of ◦C.

A 31 g block of ice is cooled to −90◦C. It is added to 591 g...

A 31 g block of ice is cooled to −90◦C. It is added to 591 g of water in an 65 g copper calorimeter at a temperature of 26◦C. Find the final temperature. The specific heat of copper is 387 J/kg · ◦C and of ice is 2090 J/kg · ◦C . The latent heat of fusion of water is 3.33 × 105 J/kg and its specific heat is 4186 J/kg · ◦C . Answer in units of ◦C.