The heat capacity of the bomb calorimeter was determined by burning 6.79 g methane (energy of combustion = -802 kJ/mole CH4) in the bomb. The temperature changed by 10.8°C. a.) What is the heat capacity of the bomb? b.) A 12.6 g sample of acetylene, C2H2, produced a temperature increase of 16.9°C in the same calorimeter. What is the energy of combustion of acetylene (in kJ/mol)
The heat capacity of the bomb calorimeter was determined by burning 6.79 g methane (energy of combustion = -802 kJ/mole CH4) in the bomb. The temperature changed by 10.8°C. a.) What is the heat capacity of the bomb? b.) A 12.6 g sample of acetylene, C2H2, produced a temperature increase of 16.9°C in the same calorimeter. What is the energy of combustion of acetylene (in kJ/mol)
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Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
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The heat capacity of the bomb calorimeter was determined by burning 6.79 g methane (energy of combustion = -802 kJ/mole CH4) in the bomb. The temperature changed by 10.8°C.
a.) What is the heat capacity of the bomb?
b.) A 12.6 g sample of acetylene, C2H2, produced a temperature increase of 16.9°C in the same calorimeter. What is the energy of combustion of acetylene (in kJ/mol)
Expert Solution
Step 1
Given:
Mass of methane= 6.79 g
Energy of combustion = -802 kJ/mole CH4
Change in tempertaure=10.8°C.
a) To calculate heat capacity of the bomb
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