A 0.820 kg iron cylinder at a temperature of 1.10 ✕ 10^3°C is dropped into an...

A 0.940 kg iron cylinder at a temperature of 1.03 ✕ 103°C is dropped into an...

A 0.940 kg iron cylinder at a temperature of 1.03 ✕ 103°C is dropped into an insulated chest of 0.920 kg of ice at its melting point. a) What is the final temperature (in °C)? b) How much ice has melted (in kg)? PLEASE ANSWER ASAP

Some ice at -15 degrees celcius with a mass of 0.45 kg is dropped into a...

Some ice at -15 degrees celcius with a mass of 0.45 kg is dropped into a highly insulated cup (no heat flows into or out of cup) with 3.0 kg water that is at 20 degrees celcius. Determine if all the ice has melted What if the final temperature of the water in the cup?

A 112-g cube of ice at 0°C is dropped into 1.0 kg of water that was...

A 112-g cube of ice at 0°C is dropped into 1.0 kg of water that was originally at 82°C. What is the final temperature of the water after the ice has melted? in C

A 112-g cube of ice at 0°C is dropped into 1.0 kg of water that was...

A 112-g cube of ice at 0°C is dropped into 1.0 kg of water that was originally at 84°C. What is the final temperature of the water after the ice has melted? _________°C

A 46 g ice cube at its melting point is dropped into an insulated container of...

A 46 g ice cube at its melting point is dropped into an insulated container of liquid nitrogen. Assume for simplicity that the specific heat of ice is a constant and is equal to 2100 J/kg⋅C∘ How much nitrogen evaporates if it is at its boiling point of 77 KK and has a latent heat of vaporization of 200 kJ/kgkJ/kg?

An insulated thermos contains 124.0 cm3 of hot coffee at a temperature of 80.0 °C. You...

An insulated thermos contains 124.0 cm3 of hot coffee at a temperature of 80.0 °C. You put in 12.0 g of ice cube at its melting point to cool the coffee. What is the temperature of the coffee once the ice has melted and the system is in thermal equilibrium? Treat the coffee as though it were pure water. (Answer in °C)

An insulated thermos contains 102.0 cm3 of hot coffee at a temperature of 80.0 °C. You...

An insulated thermos contains 102.0 cm3 of hot coffee at a temperature of 80.0 °C. You put in 14.0 g of ice cube at its melting point to cool the coffee. What is the temperature of the coffee once the ice has melted and the system is in thermal equilibrium? Treat the coffee as though it were pure water. (Answer in °C)

A well-insulated 0.2kg copper bowl contains 0.10kg of ice, both at −10◦ C. A very hot...

A well-insulated 0.2kg copper bowl contains 0.10kg of ice, both at −10◦ C. A very hot 0.35kg copper cylinder is dropped into it and the lid quickly closed. The final temperature of the system is 100◦C, with 5g of steam in the container. (a) How much heat was transferred to the water (in all phases); (b) How much to the bowl? (c) What must have been the original temperature of the cylinder? The specific heat of copper is 386 J/kg·K....

An insulated thermos contains 106 cm3 of hot coffee at a temperature of 67.0◦C. You put...

An insulated thermos contains 106 cm3 of hot coffee at a temperature of 67.0◦C. You put in 12.0 g of ice at its melting point to cool the coffee. By how many degrees has your coffee cooled just after all the ice has melted and equilibrium is reached? Treat the coffee as though it were pure water and neglect energy exchanges with the environment.

P4.6. Steam at 400°C and 10 bar is left in an insulated 10 m^3 cylinder. The...

P4.6. Steam at 400°C and 10 bar is left in an insulated 10 m^3 cylinder. The cylinder has a small leak, however. Compute the conditions of the steam after the pressure has dropped to 1 bar. What is the change in the specific entropy of the steam in the cylinder? Is this a reversible process? The mass of the cylinder is 600 kg, and its heat capacity is 0.1 cal/g-K. Solve the problem with and without considering the heat capacity...