For the following reaction, 9.78 grams of sulfur are allowed to react with 21.4 grams of carbon monoxide. \[ \text{sulfur (s)} + \text{carbon monoxide (g)} \rightarrow \text{sulfur dioxide (g)} + \text{carbon (s)} \] 1. **Maximum Sulfur Dioxide Formation**: What is the maximum amount of sulfur dioxide that can be formed? **Answer Box**: _____ grams 2. **Limiting Reagent**: What is the **FORMULA** for the limiting reagent? **Answer Box**: _____ 3. **Excess Reagent**: What amount of the excess reagent remains after the reaction is complete? **Answer Box**: _____ grams **Buttons**: - Submit Answer - Retry Entire Group **Note**: 9 more group attempts remaining. **Reaction Overview:** For the following reaction, 2.73 grams of methane \((\text{CH}_4)\) are allowed to react with 30.5 grams of carbon tetrachloride. \[ \text{methane (CH}_4\text{)} \;+\; \text{carbon tetrachloride (g)} \;\longrightarrow\; \text{dichloromethane (CH}_2\text{Cl}_2\text{)(g)} \] **Questions to Address:** 1. **Maximum Mass of Dichloromethane:** - What is the maximum mass of dichloromethane \((\text{CH}_2\text{Cl}_2)\) that can be formed? - **[Enter your answer in grams.]** 2. **Limiting Reagent:** - What is the \(\textbf{FORMULA}\) for the limiting reagent? - **[Enter the formula.]** 3. **Excess Reagent:** - What mass of the excess reagent remains after the reaction is complete? - **[Enter the remaining mass in grams.]** **Interactive Components:** - **Submit Answer:** Submit your answer for evaluation. - **Retry Entire Group:** Retry the entire problem set if your previous answer was incorrect. - **Attempt Limit:** 9 more group attempts remaining. This exercise helps in understanding stoichiometry, limiting and excess reagents, and calculating theoretical yields in a chemical reaction.

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For the following reaction, 9.78 grams of sulfur are allowed to react with 21.4 grams of carbon monoxide. \[ \text{sulfur (s)} + \text{carbon monoxide (g)} \rightarrow \text{sulfur dioxide (g)} + \text{carbon (s)} \] 1. **Maximum Sulfur Dioxide Formation**: What is the maximum amount of sulfur dioxide that can be formed? **Answer Box**: _____ grams 2. **Limiting Reagent**: What is the **FORMULA** for the limiting reagent? **Answer Box**: _____ 3. **Excess Reagent**: What amount of the excess reagent remains after the reaction is complete? **Answer Box**: _____ grams **Buttons**: - Submit Answer - Retry Entire Group **Note**: 9 more group attempts remaining.

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**Reaction Overview:** For the following reaction, 2.73 grams of methane \((\text{CH}_4)\) are allowed to react with 30.5 grams of carbon tetrachloride. \[ \text{methane (CH}_4\text{)} \;+\; \text{carbon tetrachloride (g)} \;\longrightarrow\; \text{dichloromethane (CH}_2\text{Cl}_2\text{)(g)} \] **Questions to Address:** 1. **Maximum Mass of Dichloromethane:** - What is the maximum mass of dichloromethane \((\text{CH}_2\text{Cl}_2)\) that can be formed? - **[Enter your answer in grams.]** 2. **Limiting Reagent:** - What is the \(\textbf{FORMULA}\) for the limiting reagent? - **[Enter the formula.]** 3. **Excess Reagent:** - What mass of the excess reagent remains after the reaction is complete? - **[Enter the remaining mass in grams.]** **Interactive Components:** - **Submit Answer:** Submit your answer for evaluation. - **Retry Entire Group:** Retry the entire problem set if your previous answer was incorrect. - **Attempt Limit:** 9 more group attempts remaining. This exercise helps in understanding stoichiometry, limiting and excess reagents, and calculating theoretical yields in a chemical reaction.