A copper cylinder has a mass of 76.8g and a specific heat of 0.092 cal/g°C. It is heated to 86.5°C and then put in 68.7 g of turpentine whose temperature is 19.5°C. The final temperature of the mixture is 31.9°C. What is the specific heat of the turpentine? * 0.45 cal/g°C O 0.50 cal/g°c 0.80 cal/g°C O 0.25 cal/g°C

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Chapter1: Chemical Foundations
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Calculate the energy content (in calories) of a 1.00 g of product that is
placed inside a calorimeter having a heat capacity of 920 J/K. Data from
the calorimeter indicated that the 1.250 L surrounding water had initial and
final temperatures of 18.0 °C and 41.5 °C, respectively. Specific heat
capacity of water: 4.18 Jlg-K *
3.4 x 10^4
O 3.45 x 10^4
1.4 x 10^5
O 1.44 x 10^5
Transcribed Image Text:Calculate the energy content (in calories) of a 1.00 g of product that is placed inside a calorimeter having a heat capacity of 920 J/K. Data from the calorimeter indicated that the 1.250 L surrounding water had initial and final temperatures of 18.0 °C and 41.5 °C, respectively. Specific heat capacity of water: 4.18 Jlg-K * 3.4 x 10^4 O 3.45 x 10^4 1.4 x 10^5 O 1.44 x 10^5
A copper cylinder has a mass of 76.8g and a specific heat of 0.092 cal/g°C.
It is heated to 86.5°C and then put in 68.7 g of turpentine whose
temperature is 19.5°C. The final temperature of the mixture is 31.9°C. What
is the specific heat of the turpentine? *
0.45 cal/g°C
O 0.50 cal/g°c
0.80 cal/g°C
O 0.25 cal/g°C
Transcribed Image Text:A copper cylinder has a mass of 76.8g and a specific heat of 0.092 cal/g°C. It is heated to 86.5°C and then put in 68.7 g of turpentine whose temperature is 19.5°C. The final temperature of the mixture is 31.9°C. What is the specific heat of the turpentine? * 0.45 cal/g°C O 0.50 cal/g°c 0.80 cal/g°C O 0.25 cal/g°C
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