Use Hess's law to Calculate AH (in kJ/mol) for the following reaction: WO 3H2(9) W. (s) + 3H,0 (o) 3 (s) What is the molar heat of combustion of methanol CH OH ( in kJ/mol), if the combustion of 1.0 g of methanol causes a temperature rise of 3.68 °C in a bomb calorimeter that has a heat capacity of 6.43 J/°C? Choose... v Consider the following thermochemical equation: 2NO (6), + O2(g) 2 NO 2(9) AH = 114.1 k) Choose... If 3.00 x 10g NO, were produced, then the amount of heat released (in kJ) would be:

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Use Hess's law to Calculate AH (in kJ/mol) for the following reaction: WO 3 (s) 3H2 (9) W. (s) + 3H,0 (o) What is the molar heat of combustion of methanol CH,OH ( in kJ/mol), if the combustion of 1.0 g of methanol causes a temperature rise of 3.68 °C in a bomb calorimeter that has a heat capacity of 6.43 J/°C? Choose... v Consider the following thermochemical equation: 2NO (6), + O2(9) 2 NO 2(9) AH = 114.1 k) Choose... If 3.00 x 10g NO, were produced, then the amount of heat released (in kJ) would be:

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Match each of the following with its correct answer A balloon originally had a volume of 5.39 L at 317 K and a pressure of 755 mmHg. To what temperature ( in K) must the balloon be cooled to reduce its volume to 4.00 L at a pressure of 620 mmHg? Choose... The mole fraction of N, gas in the air is 0.781 at 760 torr. Calculate the partial Choose... pressure of N, in air Consider the following reactions: AH= -1939.40 2 WO3 (s) + 302 (g) kJ/mol 2W AH= - 477.84 2H,0 (a) 2H2 (g) + O2 (9) kJ/mol Choose... IUse Hess's law to Calculate AH (in kJ/mol) for the following reaction: