Thermochemical Stoichiometry 2) Below is the thermochemical equation for the burning of benzene under standard conditions: 2 C6H6 (1) + 15 O2 (g) → 12 CO2 (g) + 6 H2O (g) AH = - 3267.7 kJ moles of C6H6 = - 3267.7 kJ moles of O2 - 3267.7 kJ moles of CO2 = - 3267.7 kJ moles of H20 = - 3267.7 kJ - 3267.7 kJ - 3267.7 kJ mol - 3267.7 kJ - 3267.7 kJ mol mol mol

Please help me answer a - e

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Thermochemical Stoichiometry 2) Below is the thermochemical equation for the burning of benzene under standard conditions: 2 C6H6 (1) + 15 O2 (g) → 12 CO2 (g) + 6 H20 (g) AH = - 3267.7 kJ moles of C6H6 moles of O2 - 3267.7 kJ - 3267.7 kJ moles of CO2 = - 3267.7 kJ moles of H20 = - 3267.7 kJ - 3267.7 kJ mol - 3267.7 kJ - 3267.7 kJ - 3267.7 kJ mol mol mol

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a) Is this reaction exothermic or endothermic? Explain. b) How much heat is released when a 5.00 g sample of benzene is burned in excess oxygen under standard conditions? c) How much heat is released when 100.0 g of water is produced under standard conditions? d) How much carbon dioxide must be produced to release 7580 kJ of heat under standard conditions? e) Does the amount of heat released or absorbed depend on the mass of substance present? What is your evidence?