A block of lucite Cl = 1460 J is heated to a temperature of Tl =...

8. A 180 g block of copper heated to 120 degrees Celsius dropped into a 360...

8. A 180 g block of copper heated to 120 degrees Celsius dropped into a 360 g aluminum calorimeter container containing 440 g of water. If the initial temperature of the calorimeter and the water is 20 °C, what is the final equilibrium temperature of the system? 9. 25 g steam at 110 °C is added temperature of the resulting water 100 g of ice at -10 °C in an insulated container. What is the final temperature of the resulting...

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...

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 1.0kg of ice at−100◦C, 10.0kg of water at 1◦C, and the copper container has the mass of 15.0kg and is initially at 10◦C? The heat capacities of ice,...

A 11 kg block of ice at -15 °C is added to an insulated container partially...

A 11 kg block of ice at -15 °C is added to an insulated container partially filled with 12 kg of water at 20 °C. Given: Cw = 4186 J/kg. °C; Cice = 2220 J/kg. °C, L= 3.34x10 J/kg (a) Determine the final state of the mixture. Explain your answer. Based on your answer in (a), calculate either one (1) of the following: the mass of ice that melts. the final temperature of the system. (c) Based on your answer...

A 21.0 g silver ring (cp = 234 J/kg·°C) is heated to a temperature of 81.6°C...

A 21.0 g silver ring (cp = 234 J/kg·°C) is heated to a temperature of 81.6°C and then placed in a calorimeter containing 5.20 ✕ 10-2 kg of water at 24.0°C. The calorimeter is not perfectly insulated, however, and 0.140 J of energy is transferred to the surroundings before a final temperature is reached. What is the final temperature? °C

A chunk of frozen mercury (the element Hg, not the planet) in an isolated calorimeter has...

A chunk of frozen mercury (the element Hg, not the planet) in an isolated calorimeter has a little warm water splashed on it to warm it up. 1.25 kg of mercury begins the problem at a temperature of -95 C, and is combined with 0.065 kg of water at 15 C. No heat flows to or from the environment. What is the equilibrium state of the system, in terms of temperature, mass of water, mass of ice, mass of solid...

The temperature of a 0.555 kg block of ice is lowered to -120°C. Heat (0.5159 MJ)...

The temperature of a 0.555 kg block of ice is lowered to -120°C. Heat (0.5159 MJ) is then transferred to the block of ice (assume ice is otherwise thermally isolated). What is the final temperature of the water in °C?

A 41.6 g block of copper whose temperature is 372 K is placed in an insulating...

A 41.6 g block of copper whose temperature is 372 K is placed in an insulating box with a 59.3 g block of lead whose temperature is 146 K. (a) What is the equilibrium temperature of the two-block system? (b) What is the change in the internal energy of the two-block system between the initial state and the equilibrium state? (c)What is the change in the entropy of the two-block system? The heat capacities of copper and lead are 386...

A 16.2 g block of copper whose temperature is 417 K is placed in an insulating...

A 16.2 g block of copper whose temperature is 417 K is placed in an insulating box with a 122 g block of lead whose temperature is 103 K. (a) What is the equilibrium temperature of the two-block system? (b) What is the change in the internal energy of the two-block system between the initial state and the equilibrium state? (c) What is the change in the entropy of the two-block system? The heat capacities of copper and lead are...

A 44.2 g block of copper whose temperature is 368 K is placed in an insulating...

A 44.2 g block of copper whose temperature is 368 K is placed in an insulating box with a 143 g block of lead whose temperature is 268 K. (a) What is the equilibrium temperature of the two-block system? (b) What is the change in the internal energy of the two-block system between the initial state and the equilibrium state? (c) What is the change in the entropy of the two-block system? The heat capacities of copper and lead are...