Solution 00 g sample of octane C8H18 is burned in a calorimeter that contains 1 20 kg of water The temperature of the water and the bomb rises from 25 00C
Solution g sample of octane C H is burned in a calorimeter that contains kg of water The temperature of the water
Solution g sample of octane C H is burned in a calorimeter that contains kg of
C H is burned in a calorimeter that contains kg of water The temperature of the water and the bomb rises from C
Solution g sample of octane C H is burned in a calorimeter that contains
kg of water The temperature of the water and the bomb rises from C
Solution g sample of octane C H is burned in a
Solution g sample of octane
(Solution) 00 g sample of octane (C8H18) is burned in a calorimeter that contains 1.20 kg of water. The temperature of the water and the bomb rises from 25.00C...

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A 1.00 g sample of octane (C8H18) is burned in a calorimeter that contains 1.20 kg of water. The temperature of the water and the bomb rises from 25.00°C to 33.20°C. If the heat capacity of the bomb, Cbomb, is 837 J/K calculate the heat given off per mole of octane. Specific heat for water: 4.184 Jg–1°C–1.86 kJ/mol41.2 kJ/mol5.48 × 103 kJ/mol48.0 kJ/mol4.21 kJ/mol--------------------------Calculate ?H for the reaction:C6H6(l) + (15/2)O2(g) ? 6CO2(g) + 3H2O(l)given the following information:1) 6C(graphite) + 3H2(g) ? C6H6(l)   ?H1 = +49.0 kJ2) C(graphite) + O2(g) ? CO2(g)     ?H2 = –393.5 kJ3) H2(g) + 1/2 O2(g)  ? H2O(l)       ?H3 = –285.8 kJ–630.3 kJ–2597.8 kJ–3169.4 kJ–3267.8 kJ+630.3 kJ