Nitrogen monoxide is a pollutant commonly found in smokestack emissions. One way to remove it is to react it with ammonia. 4NH3(g) - 6NO(g) - 5N₂) + 6H₂O(E) How many liters of ammonia are required to change 34.9 L of nitrogen monoxide to nitrogen gas? Assume 100% yield and that all gases are measured at the same temperature and pressure. Submit Show Approach Hide Tutor Steps

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Nitrogen monoxide is a pollutant commonly found in smokestack emissions. One way to remove it is to react it with ammonia. 4NH3(g) + 6NO(g) → 5N₂(g) + 6H₂O(l) How many liters of ammonia are required to change 34.9 L of nitrogen monoxide to nitrogen gas? Assume 100% yield and that all gases are measured at the same temperature and pressure. Submit TUTOR STEP Show Approach Hide Tutor Steps At constant temperature and pressure, which of the following statements is true? O The volume ratio of the gases is inversely related to the mole ratio. O The volume ratio of the gases is the same as the mole ratio. Check Next> (1 of 2) Approach The volume of a gas is proportional to the amount present, in moles. In a chemical reaction involving gases, the various gas-phase compounds are present under the same conditions of temperature, pressure and volume. Therefore, the total volume occupied by the gas mixture, both before and after the reaction, is proportional to the total moles present each stage. Step 1 Determine the relationship between number of moles of each gaseous species and the volume of that species. The volume (liters) is proportional to the amount (moles). Step 2 Use the ratio of moles of ammonia to moles of nitrogen monoxide to convert from liters of nitrogen monoxide to liters of ammonia.