Use constant-volume calorimetry to determine energy change. A 0.916-g sample of glutaric acid (C5H₂O4) is burned in a bomb calorimeter and the temperature increases from 25.20 °C to 28.00 °C. The calorimeter contains 1.04x10³ g of water and the bomb has a heat capacity of 874 J/°C. Based on this experiment, calculate AE for the combustion reaction per mole of glutaric acid burned (kJ/mol). C5H8O4(s) + 5 O2(g) 5 CO2(g) + 4H₂O(l) ΔΕ = kJ/mol

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Use constant-volume calorimetry to determine energy change. A 0.916-g sample of glutaric acid (C5H8O4) is burned in a bomb calorimeter and the temperature increases from 25.20 °C to 28.00 °C. The calorimeter contains 1.04×10³ g of water and the bomb has a heat capacity of 874 J/°C. Based on this experiment, calculate AE for the combustion reaction per mole of glutaric acid burned (kJ/mol). C5H8O4(s) + 5 O2(g) →5 CO₂(g) + 4H₂O(l) ΔΕΞ kJ/mol

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Given the following information for ether, C₂H5OC₂H5 (at 1 atm), calculate the amount of heat in kJ needed (at 1 atm) to vaporize a 21.2-g sample of liquid ether at its normal boiling point of 34.6 °C. boiling point 34.6 °C melting point -116 °C specific heat liquid = 2.32 J/gºC = AHvap(34.6 °C) = 26.5 kJ/mol AHfus(-116 °C) 7.27 kJ/mol =