Compound X is burned in a bomb calorimeter that contains 1.50 liters of water. When 50.0 grams of compcund X was burned in the calorimeter, the temperature rise of the water measured was 35.0°C. If...


Compound X is burned in a bomb calorimeter that<br>contains 1.50 liters of water. When 50.0 grams of<br>compcund X was burned in the calorimeter, the<br>temperature rise of the water measured was 35.0°C. If<br>the heat of combustion of compound X is 22.5 kJ/mol,<br>what is the molar mass of compound X?<br>Consider the following formula:<br>AH = mC,AT where m=mass of substance,<br>C,=heat capacity of substance. If the bomb calorimeter<br>is using water then the m and C, values used in the<br>calculation should be those of water. The heat capacity<br>of water is 4.184 J/ g-C.<br>203 g/mol<br>O 154 g/mal<br>255 g/mol<br>307 g/mcl<br>

Extracted text: Compound X is burned in a bomb calorimeter that contains 1.50 liters of water. When 50.0 grams of compcund X was burned in the calorimeter, the temperature rise of the water measured was 35.0°C. If the heat of combustion of compound X is 22.5 kJ/mol, what is the molar mass of compound X? Consider the following formula: AH = mC,AT where m=mass of substance, C,=heat capacity of substance. If the bomb calorimeter is using water then the m and C, values used in the calculation should be those of water. The heat capacity of water is 4.184 J/ g-C. 203 g/mol O 154 g/mal 255 g/mol 307 g/mcl

Jun 08, 2022
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