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5. Under a high- pressure atmosphere of oxygen, the compound C7 H11 O4 NS2 is burned....
5. Under a high-pressure atmosphere of oxygen, the compound C7H11O4NS2 is burned. A. Write the balanced equation for this reaction. You may assume all the nitrogen is converted to NO2 and the sulfur is converted to SO3. Coefficients should represent the smallest whole number ratio of all reactants and products – no fractional coefficients. B. If 77.6 g of the compound is burned, what is the mass of each product?
5. Under a high-pressure atmosphere of oxygen, the compound C7H11O4NS2 is burned. A. Write the balanced equation for this reaction. You may assume all the nitrogen is converted to NO2 and the sulfur is converted to SO3. Coefficients should represent the smallest whole number ratio of all reactants and products – no fractional coefficients. B. If 77.6 g of the compound is burned, what is the mass of each product?
5. Under a high-pressure atmosphere of oxygen, the compound C7H1104NS2 is burned. A. Write the balanced equation for this reaction. You may assume all the nitrogen is converted to NO2 and the sulfur is converted to SO3. Coefficients should represent the smallest whole number ratio of all reactants and products - no fractional coefficients. (7.5 pts.) B. If 77.6 g of the compound is burned, what is the mass of each product? (7.5 pts)
Under a high-pressure atmosphere of oxygen, the compound C7H11O4NS2 is burned A. Write the balanced equation for this reaction. You may assume all the nitrogen is converted to NO2 and the sulfur is converted to SO3. Coefficients should represent the smallest whole number ratio of all reactants and products – no fractional coefficients. (7.5 pts.) B. If 77.6 g of the compound is burned, what is the mass of each product?
5. Under a high-pressure atmosphere of oxygen, the compound C7H101NS2 is burned. A. Write the balanced equation for this reaction. You may assume all the nitrogen is converted to NO2 and the sulfur is converted to SO3. Coefficients should represent the smallest whole number ratio of all reactants and products -no fractional coefficients. (7.5 pts.) B. If 77.6 g of the compound is burned, what is the mass of each product? (7.5 pts) local envio inostoi
5. Under a high-pressure atmosphere of oxygen, the compound C7H1104NSZ is burned. A. Write the balanced equation for this reaction. You may assume all the nitrogen is converted to NO, and the sulfur is converted to SO3. Coefficients should represent the smallest whole number ratio of all reactants and products - no fractional coefficients. (7.5 pts.) B. If 77.6 g of the compound is burned, what is the mass of each product? (7.5 pts)
5. Under a high-pressure atmosphere of oxygen, the compound C7H11O4NS2 is burned. A. Write the balanced equation for this reaction. You may assume all the nitrogen is converted to NO2 and the sulfur is converted to SO3. Coefficients should represent the smallest whole number ratio of all reactants and products – no fractional coefficients. (7.5 pts.) B. If 77.6 g of the compound is burned, what is the mass of each product? (7.5 pts 6. Consider the reaction: Fe2O3(s) +...
5. Under a high-pressure atmosphere of oxygen, the compound CHONS, is bumed. A. Write the balanced equation for this reaction. You may assume all the nitrogen is converted to NO, and the sulfur is converted to Sos. Coefficients should represent the smallest whole number ratio of all reactants and products -no fractional coefficients. (7.5 pts.) I B. If 77.6 g of the compound is burned, what is the mass of each product? (7.5 pts)
Part 1 A compound is analyzed and found to contain 65.4% C, 5.5% H, and 29.1% O by mass. In a separate experiment, the compound is found to effuse through an opening at a rate of 3.0 x 10-5 mol/min. A sample of neon gas effused through the same opening at a rate of 7.0 x 10-5 mol/min. A. What is the empirical formula of the compound? (9 pts.) B. What is the molecular formula of the compound? (6 pts.)...
Ozone (O3) in the atmosphere can be converted to oxygen gas by reaction with nitric oxide (NO). Nitrogen dioxide is also produced in the reaction. What is the enthalpy change when 8.50L of ozone at a pressure of 1.00 atm and 25°C reacts with 12.00 L of nitric oxide at the same initial pressure and temperature? [∆H°f (NO) = 90.4 kJ/mol; [∆H°f (NO2) = 33.85 kJ/mol; ∆H°f (O3)= 142.2 kJ/mol] [O3 + NO O2 + NO2] show all work...