Respond to questions on the Concept of energy exchange during a chemical reaction using calorimetry A piece of copper metal is initially at 100.0°C. It is dropped into a coffee cup calorimeter containing 50.0 g of water at a temperature of 20.0°C. After stirring, the final temperature of both copper and water is 25.0°C. Assuming no heat losses, and that the specific heat (capacity) of water is 4.18 J/(g K), what is the heat capacity of the copper in J/K? Calculate the amount of heat gained by the water b. Calculate the amount of heat lost by the copper metal c. Calculate heat capacity of the copper in J/K

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Respond to questions on the Concept of energy exchange during
a chemical reaction using calorimetry
A piece of copper metal is initially at 100.0°C. It is dropped into a
coffee cup calorimeter containing 50.0 g of water at a temperature
of 20.0°C. After stirring, the final temperature of both copper and
water is 25.0°C. Assuming no heat losses, and that the specific heat
(capacity) of water is 4.18 J/(g-K), what is the heat capacity of the
copper in J/K?
a. Calculate the amount of heat gained by the water
b. Calculate the amount of heat lost by the copper metal
c. Calculate heat capacity of the copper in J/K
Transcribed Image Text:Respond to questions on the Concept of energy exchange during a chemical reaction using calorimetry A piece of copper metal is initially at 100.0°C. It is dropped into a coffee cup calorimeter containing 50.0 g of water at a temperature of 20.0°C. After stirring, the final temperature of both copper and water is 25.0°C. Assuming no heat losses, and that the specific heat (capacity) of water is 4.18 J/(g-K), what is the heat capacity of the copper in J/K? a. Calculate the amount of heat gained by the water b. Calculate the amount of heat lost by the copper metal c. Calculate heat capacity of the copper in J/K
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