In the Sandwiches mode, select the "Cheese" option and observe the equation given for the preparation of a cheese sandwich. When the number of bread slices and cheese slices is set to "0," you will see that there is "no reaction." Now, in the equation, set the number of b slices to "2" and the number of cheese slices to "1." You will see that the product formed by these three elements is one cheese sandwich with two slices of bread and one slice of cheese. Classity the following combination of bread and cheese according to the limiting ingredient in the preparation of the cheese sandwich mentioned above. Drag the appropriate items to their respective bins. • View Available Hint(s) Reset Help 4 bread slices and 1 6 bread slices and 4 8 bread slices and 3 6 bread slices and 3 2 bread slices and 1 6 bread slices and 2 cheese slice 4 bread slices and 5 cheese slices 8 bread slices and 5 cheese slices cheese slices Bread is the limiting ingredient Cheese is the limiting ingredient There is no limiting ingredient Submit • Part B In the Sandwiches mode, select the "Cheese" option and observe the equation given for the preparation of a cheese sandwich. In the equation, set the number of bread slices to "2" and the number of cheese slices to "1." You will see that the product formed by these three ingredients is one cheese sandwich. Suppose you have 40 bread slices and 30 cheese slices. How many cheese sandwiches can you make? Express your answer as an integer. • View Available Hint(s) sandwiches

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**Educational Website Content: Cheese Sandwich Preparation and Limiting Ingredients** In the **Sandwiches** mode, select the "Cheese" option to observe the equation provided for preparing a cheese sandwich. Increase the number of bread slices and cheese slices from "0," and you will see a "no reaction" status indicating that a sandwich cannot be made. Adjust the equation to set the number of bread slices to "2" and the number of cheese slices to "1." Here, the equation shows that one cheese sandwich is produced from these three elements, consisting of two slices of bread and one slice of cheese. **Activity: Classifying Limiting Ingredients** Your task is to classify the following combinations according to the limiting ingredient in cheese sandwich preparation. Drag the combinations into their respective bins: - **4 bread slices and 1 cheese slice** - **2 bread slices and 1 cheese slice** - **6 bread slices and 4 cheese slices** - **1 bread slice and 5 cheese slices** - **4 bread slices and 3 cheese slices** - **8 bread slices and 5 cheese slices** - **6 bread slices and 3 cheese slices** **Bins:** 1. **Bread is the limiting ingredient** 2. **Cheese is the limiting ingredient** 3. **There is no limiting ingredient** **Interactive Diagram:** - This interactive visual allows students to match ingredient combinations with corresponding limiting factors in making cheese sandwiches. **Part B: Calculation Challenge** Switch to the **Sandwiches** mode, select "Cheese" and examine the equation to determine the preparation process of a cheese sandwich. - Set the bread slices to "2" and cheese slices to "1" to see the resulting equation where one cheese sandwich is created. **Problem:** You have 40 bread slices and 30 cheese slices. How many cheese sandwiches can you make? - *Express your answer as an integer.* Input your answer in the box provided. This educational exercise helps illustrate the concept of limiting ingredients in simple recipe mathematics, enhancing problem-solving skills.

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**Part C** Go to the Molecules mode by selecting the icon at the bottom. Notice that there are three real reactions: the synthesis of water, the synthesis of ammonia, and the combustion of methane. Select each of the reactions and observe the reactants taking part in the reactions. Suppose you are carrying out each of these reactions starting with five moles of each reactant. Observe that some reactants are in excess whereas some reactants limit the amount of products formed. Classify each of the reactants as a limiting reactant or an excess reactant for a reaction starting with five moles of each reactant. **Drag the appropriate items to their respective bins.** - View Available Hint(s) (Box showing draggable items) - H₂ in formation of ammonia - N₂ in formation of ammonia - O₂ in formation of water - CH₄ in combustion of methane - O₂ in combustion of methane - H₂ in formation of water (Bins labeled) - **Limiting reagent** - **Excess reagent** Buttons: [Reset] [Help] Button: [Submit] **Part D** Find the number of moles of water that can be formed if you have 178 mol of hydrogen gas and 84 mol of oxygen gas. *Express your answer with the appropriate units.* - View Available Hint(s) (Answer box section) - [ ] Value - [ ] Units