6. If 1.4 g of nitrogen is reacted with excess oxygen in a calorimeter containing 254 g of water (specific heat capacity: 4.18 J/g·K), the temperature of the water changes from 25.0 ºC to 23.4 ºC. Determine the value of delta H (in kJ/mol) for this reaction per mole of nitrogen. N2(g) + 2 O2(g) N2O4(g)
a. 1.2 kJ
b. 1.7 kJ
c. 17 k J
d. 34 kJ
6. If 1.4 g of nitrogen is reacted with excess oxygen in a calorimeter containing 254...
1.956 g of an unknown hydrocarbon (71.3 g/mol) burns in bomb calorimeter in excess oxygen. The heat capacity of the calorimeter,Cv, = 5.077 kJ/ºC and ΔT =7.651 ºC. Find ΔE for this hydrocarbon in kJ/mol?
A 38.87 g sample of water (c = 4.18 J/gºC) is placed in a calorimeter with a heat capacity of 131.7 J/ºC. The heat of combustion of methane (CH4) is known to be 892 kJ/mole. According to the reaction below, how many grams of methane would be required to raise the temperature of the water sample 6.93ºC?
0.500 g of graphite (elemental carbon) is reacted with oxygen in a bomb calorimeter filled with water, which has a total heat capacity of 2820 J/oC. If the reaction gave off 16.4 kJ and the initial temperature of the water and calorimeter was 22.40 oC, what should the final temperature be? I got 34.031 when i tried it using q=mc(tf-ti) and it was wrong. I really need to learn this so as much work as you can help me with,...
Nitrogen oxide, NO, is a common pollutant produced by the reaction of nitrogen and oxygen gas. Since these gases are several major components of air, nitrogen oxide forms when air is heated in furnaces, engines and other high temperature combustion reactions. Given the standard enthalpy of formation for NO (g) = 90.25 kJ / mole and using the absolute entropies shown in the table below, the free energy change for the reaction at 25.00 ºC can be calculated, and equals...
In a coffee cup calorimeter, 5.86 g of SO3 (g) (mm SO3=80.06 g/mol) is reacted with 100.00g of water at 25.0 Celsius. Assuming the specific heat for the solution is 4.184 J/gC and the heat of reaction for 1.00 mole of SO3 (g) is -241.8 kJ/mol, what is the final temperature of the given reaction solution?
A 1.720 g sample of naphthalene (formula C10H8) reacts completely in a bomb calorimeter containing 500 g of water. The temperature of the water and the bomb calorimeter increased from 24.00 degrees C to 47.57 degrees C. The heat capacity of the empty calorimeter is 850.0 J/degrees C. The specific heat capacity of water is 4.18 J/g(degrees C). Determine the enthalpy of combustion of naphthalene in units of kJ/mol.
A 2.50 g sample of ethanol, C2H5OH, was combusted in the presence of excess oxygen in a bomb calorimeter containing 2.00 kg of water. The temperature of the water increased from 22.500oC to 27.845oC. The heat capacity of the calorimeter is 2520 J/oC and the specific heat capacity of water is 4.184 J/goC. Calculate the molar enthalpy of the combustion reaction in kJ/mol
2) 1.9 g of an unknown hydrocarbon (44 g/mol) burns in bomb calorimeter in excess oxygen. The heat capacity of the calorimeter, Cv, = 5.539 kJ/°C and AT =15.874 ºC. Find AE for this hydrocarbon in kJ/mol. (Hint: This is a bomb calorimeter, where the reaction is happening at constant volume: So, what is zero? How is AE related to q (heat)?) Identify: system = Surrounding =
In the following experiment, a coffee-cup calorimeter containing 100 g of H2O is used. The initial temperature of the calorimeter is 23.0 oC. If 7.6 g of CaCl2is added to the calorimeter, what will be the final temperature of the solution in the calorimeter? Assume that the heat capacity of the solution is 4.18 J/goC, and that the heat capacity of the calorimeter is negligible. The heat of dissolution ΔHsoln of CaCl2 is −82.8 kJ/mol. Enter your answer numerically in...
7. A 2.529-g sample of glutaric acid, CsH.O.(132.12 g/mol) was burned in a bomb calorimeter with excess oxygen. The temperature of the calorimeter and the water before combustion was 23.63 °Cafter combustion the calorimeter and the water had a temperature of 32.48 °C. The calorimeter had a heat capacity of 747 J/K, and contained 0.926 kg of water. Use these data to calculate the molar heat of combustion (in kJ) of glutaric acid.