Lesson 7
Restaurant Floor Plan
7.1: Dining Area (25 minutes)
Optional activity
The purpose of this activity is for students to create a scale drawing for a restaurant floor plan. Students use proportional reasoning to consider how much space is needed per customer, both in the dining area and at specific tables. They try to find a layout for the tables in the dining area that meets restrictions both for the distance between tables and to the kitchen. Students choose their own scale for creating their scale drawing.
When trying to answer the last two questions, students might want to go back and modify the shape of their dining area from their previous answer. This is an acceptable way for students to make sense of the problem and persevere in solving it (MP1).
Launch
Provide access to graph paper, geometry toolkits, and compasses. Give students quiet work time followed by partner discussion.
Student Facing
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Restaurant owners say it is good for each customer to have about 300 in2 of space at their table. How many customers would you seat at each table?
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It is good to have about 15 ft2 of floor space per customer in the dining area.
- How many customers would you like to be able to seat at one time?
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What size and shape dining area would be large enough to fit that many customers?
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Select an appropriate scale, and create a scale drawing of the outline of your dining area.
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Using the same scale, what size would each of the tables from the first question appear on your scale drawing?
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To ensure fast service, it is good for all of the tables to be within 60 ft of the place where the servers bring the food out of the kitchen. Decide where the food pickup area will be, and draw it on your scale drawing. Next, show the limit of how far away tables can be positioned from this place.
- It is good to have at least \(1\frac12\) ft between each table and at least \(3\frac12\) ft between the sides of tables where the customers will be sitting. On your scale drawing, show one way you could arrange tables in your dining area.
Student Response
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Student Facing
Are you ready for more?
The dining area usually takes up about 60% of the overall space of a restaurant because there also needs to be room for the kitchen, storage areas, office, and bathrooms. Given the size of your dining area, how much more space would you need for these other areas?
Student Response
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Activity Synthesis
Ask students to trade with a partner and check that the layout meets the requirements for spacing between tables and maximum distance between the tables and the food pickup area.
Display these questions for students to discuss with their partner:
- Is the scale drawing easy to interpret?
- Does it say somewhere what scale was used for the drawing?
- Is there anything that could be added to the drawing that would make it clearer?
Design Principle(s): Cultivate conversation; Maximize meta-awareness
7.2: Cold Storage (15 minutes)
Optional activity
The purpose of this activity is for students to apply proportional reasoning in the context of area and volume to predict the cost of operating a walk-in refrigerator and freezer.
Launch
Arrange students in groups of 2. Give students 1 minute of quiet think time followed by time to work with their partner to solve the problem.
Supports accessibility for: Organization; Attention
Design Principle(s): Cultivate conversation; Maximize meta-awareness
Student Facing
Some restaurants have very large refrigerators or freezers that are like small rooms. The energy to keep these rooms cold can be expensive.
- A standard walk-in refrigerator (rectangular, 10 feet wide, 10 feet long, and 7 feet tall) will cost about $150 per month to keep cold.
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A standard walk-in freezer (rectangular, 8 feet wide, 10 feet long, and 7 feet tall) will cost about $372 per month to keep cold.
Here is a scale drawing of a walk-in refrigerator and freezer. About how much would it cost to keep them both cold? Show your reasoning.
Student Response
Teachers with a valid work email address can click here to register or sign in for free access to Student Response.
Activity Synthesis
The goal of this discussion is for students to practice explaining the assumptions they made and the strategies they used to solve the problem.
First, poll the class on their estimates for the cost of operating the refrigerator and freezer. Discuss whether the different answers seem reasonable.
Next, select students to share their strategies for breaking the problem up into smaller parts.
Discuss what assumptions students made about proportional relationships while solving the problem. (For example, there is a proportional relationship between the volume of a walk-in refrigerator and the cost to keep it cold.)