To measure the heat capacity of an object, all you usually have to do is put it in thermal contact with another object whose heat capacity you know. As an example, suppose that a chunk of metal is immersed in boiling water (100°C), then is quickly transferred into a Styrofoam cup containing 250 g of water at 20°C. After a minute or so, the temperature of the contents of the cup is 24°C. Assume that during this tirne no significant energy is transferred between the contents of the cup and the surroundings. The heat capacity of the cup itself is negligible. (a) How much heat is gained by the water? (b) How much heat is lost by the metal? (c) What is the heat capacity of this chunk of metal? (d) If the mass of the chunk of metal is 100 g, what is its specific heat capacity? Cw= Cu = 4.186 J/g.°C

To measure the heat capacity of an object, all you usually have to do is put it in thermal contact with another object whose heat capacity you know. As an example, suppose that a chunk of metal is immersed in boiling water (100°C), then is quickly transferred into a Styrofoam cup containing 250 g of water at 20°C. After a minute or so, the temperature of the contents of the cup is 24°C. Assume that during this tirne no significant energy is transferred between the contents of the cup and the surroundings. The heat capacity of the cup itself is negligible. (a) How much heat is gained by the water? (b) How much heat is lost by the metal? (c) What is the heat capacity of this chunk of metal? (d) If the mass of the chunk of metal is 100 g, what is its specific heat capacity? Cw= Cu = 4.186 J/g.°C

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Question

Supply all necessary details and equations for this solution. For study purposes. Thank you.

Subject: Statistical Physics

Topic: Thermodynamics

To measure the heat capacity of an object, all you usually have
to do is put it in thermal contact with another object whose heat capacity you
know. As an example, suppose that a chunk of metal is immersed in boiling water
(100°C), then is quickly transferred into a Styrofoam cup containing 250 g of
water at 20°C. After a minute or so, the temperature of the contents of the cup is
24°C. Assume that during this time no significant energy is transferred between
the contents of the cup and the surroundings. The heat capacity of the cup itself
is negligible.
(a) How much heat is gained by the water?
(b) How much heat is lost by the metal?
(c) What is the heat capacity of this chunk of metal?
(d) If the mass of the chunk of metal is 100 g, what is its specific heat capacity?
Cu = 4.186 J/g.°C

Science that deals with the amount of energy transferred from one equilibrium state to another equilibrium state.

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