Some N₂ gas is mixed with some O₂ gas, and the sketch below shows a representative sample of the mixture. The total pressure of the mixture is measured, and found to be 900. torr. gas N₂ 0₂ mole fraction 0 0 carbon nitrogen oxygen Calculate the mole fraction and partial pressure of each gas in this mixture. Round your answers to 3 significant digits. You may assume each gas behaves as an ideal gas. key partial pressure 0t torr 0t torr hydrogen sulfur chlorine

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**Educational Content on Gas Mixture Calculation** Some \( \text{N}_2 \) gas is mixed with some \( \text{O}_2 \) gas, and the sketch below shows a representative sample of the mixture. The total pressure of the mixture is measured and found to be 900 torr. **Diagram Explanation:** - The diagram shows a collection of gas particles. - A key is provided: - Black: Carbon - Blue: Nitrogen - Red: Oxygen - White: Hydrogen - Yellow: Sulfur - Green: Chlorine - In this context, focus on the blue points (Nitrogen) and red points (Oxygen) in the sample sketch, as they represent \( \text{N}_2 \) and \( \text{O}_2 \) respectively. **Calculation Task:** Calculate the mole fraction and partial pressure of each gas in this mixture. Round your answers to three significant digits. Assume each gas behaves as an ideal gas. **Table for Input:** | Gas | Mole Fraction | Partial Pressure (torr) | |-------|---------------|-------------------------| | \( \text{N}_2 \) | | | | \( \text{O}_2 \) | | | Please enter your calculations in the appropriate boxes. **Actions:** - To complete the exercise, input the mole fraction and partial pressure for \( \text{N}_2 \) and \( \text{O}_2 \) in the table. - Use the "Submit" button to check your answers or click "I Don't Know" if you need assistance. Consider the assumption that the gases behave ideally to simplify the calculations based on the total pressure given. --- This educational guide aims to enhance understanding of gas mixtures using the ideal gas law and partial pressure concepts.