A 400g copper sphere is heated to 100 degrees celsius and then suspended in 1200g of water that is initially at 10 degrees celsius. The water is contained inside an insulated can of negligible mass so that no heat is lost to the outside environment and no significant amount of heat is absorbed by the can. Find the final temperature of the water and the copper sphere when thermal equilibrium is obtained.
A 400g copper sphere is heated to 100 degrees celsius and then suspended in 1200g of water that is initially at 10 degrees celsius. The water is contained inside an insulated can of negligible mass so that no heat is lost to the outside environment and no significant amount of heat is absorbed by the can. Find the final temperature of the water and the copper sphere when thermal equilibrium is obtained.
College Physics
10th Edition
ISBN:9781285737027
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter11: Energy In Thermal Processes
Section: Chapter Questions
Problem 5P: A 3.00-g copper coin at 25.0C drops 50.0 m to the ground. (a) Assuming 60.0% of the change in...
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A 400g copper sphere is heated to 100 degrees celsius and then suspended in 1200g of water that is initially at 10 degrees celsius. The water is contained inside an insulated can of negligible mass so that no heat is lost to the outside environment and no significant amount of heat is absorbed by the can. Find the final temperature of the water and the copper sphere when thermal equilibrium is obtained.
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