A copper pot with a mass of 0.500 kg contains 0.195 kg of water, and both...

A copper pot with a mass of 0.500 kg contains 0.175 kg of water, and both...

A copper pot with a mass of 0.500 kg contains 0.175 kg of water, and both are at a temperature of 23.0 ∘C. A 0.240 kg block of iron at 85.5 ∘C is dropped into the pot. Find the final temperature of the system, assuming no heat loss to the surroundings. Express your answer in degrees Celsius.

14.44) A copper pot with a mass of 0.510 kg contains 0.195 kg of water, and...

14.44) A copper pot with a mass of 0.510 kg contains 0.195 kg of water, and both are at a temperature of 21.5 ∘C . A 0.275 kg block of iron at 84.5 ∘C is dropped into the pot. A)Find the final temperature of the system, assuming no heat loss to the surroundings.

A copper pot with a mass of 0.495kg contains 0.715kg of water, and both are at...

A copper pot with a mass of 0.495kg contains 0.715kg of water, and both are at room temperature of 23.0 C. A 0.235kg block of iron at 86.5 C is dropped into the pot. Find the final temperature of the system, no heat loss to the surroundings. Express your answer in degrees Celsius.

A copper pot with a mass of 0.480 kg contains 0.170 kg of water, and both...

A copper pot with a mass of 0.480 kg contains 0.170 kg of water, and both are at a temperature of 20.0 ?C . A 0.270 kg block of iron at 83.0 ?C is dropped into the pot. Find the final temperature of the system, assuming no heat loss to the surroundings.

A copper pot with a mass of 0.515 kg contains 0.185 kg of water, and both...

A copper pot with a mass of 0.515 kg contains 0.185 kg of water, and both are at a temperature of 23.0 ∘C. A 0.275 kg block of iron at 83.5 ∘C is dropped into the pot. Find the final temperature of the system, assuming no heat loss to the surroundings.

A copper pot with a mass of 0.450 kg contains 0.235 kg of water and both...

A copper pot with a mass of 0.450 kg contains 0.235 kg of water and both are at a temperature of 22.5℃. A 0.265 kg block of copper at 455.5℃ is dropped into the pot. Determine the final temperature of the mixture.

Part A A copper pot of mass 2.5 kg contains 5.2 litres of water (i.e. 5.2...

Part A A copper pot of mass 2.5 kg contains 5.2 litres of water (i.e. 5.2 kg) at room temperature (200C). An iron block of mass 9.4 kg is dropped into the water and when the system comes into thermal equilibrium, a temperature of 380C is measured. What is the initial temperature of the iron block? Give your answer in oC to three significant figures. Part B Iron has a specific heat that is larger than that of copper. A...

A copper calorimeter can with mass 0.860 kgcontains 0.185 kg of water and 0.020 kg of...

A copper calorimeter can with mass 0.860 kgcontains 0.185 kg of water and 0.020 kg of ice in thermal equilibrium at atmospheric pressure. If 0.775 kg of lead at a temperature of 255 ∘C is dropped into the can, what is the final temperature of the system? (Assume no heat is lost to the surroundings.) Express your answer in degrees Celsius to three significant figures.

A copper calorimeter can with mass 0.860 kg contains 0.185 kg of water and 0.020 kg...

A copper calorimeter can with mass 0.860 kg contains 0.185 kg of water and 0.020 kg of ice in thermal equilibrium at atmospheric pressure. Part A: What is the temperature of the ice–water mixture? Part B: If 0.775 kg of lead at a temperature of 255 ∘C is dropped into the can, what is the final temperature of the system? (Assume no heat is lost to the surroundings.)

An insulated beaker with negligible mass contains liquid water with a mass of 0.290 kg and...

An insulated beaker with negligible mass contains liquid water with a mass of 0.290 kg and a temperature of 72.4 degrees C. How much ice at a temperature of -11.2 degrees C must be dropped into the water so that the final temperature of the system will be at 33.0 degrees C? Take the specific heat of liquid water to be at 4190 J/kg • K, the specific heat of ice to be 2100 J/kg • K, and the heat...