Unit 5, Lesson 10
Cross-Sections and Volume
Geometry
10.1
Warm-up
Instructional Routines
NoneMaterials
NoneActivity Narrative
In this Warm-up, students encounter the concept of right and oblique cylinders. They begin thinking about volume relationships in terms of cross sections. This helps prepare them to give informal arguments for cylinder, cone, and pyramid volumes.
Launch
Arrange students in groups of 2. Give students quiet work time and then time to share their work with a partner. Follow with a whole-class discussion.
Activity
NoneThe images show the same number of coins arranged in different ways.
A
B
- How are the two coin stacks different from each other?
- Does either stack of coins resemble a geometric solid? If so, which stack and what solid?
- How do the heights of the two stacks compare?
- How do the volumes of the two stacks compare? Explain your reasoning.
Student Response
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Building on Student Thinking
Activity Synthesis
The goal of this discussion is for students to recognize that the two stacks of coins have the same volume, and to learn vocabulary words to describe each type of solid.
Tell students that the coin stack A resembles a right cylinder, while coin stack B resembles an oblique cylinder. Challenge students to create definitions for these terms: A right cylinder has its curved face at right angles to its base, while the oblique cylinder has non-right angles.
Emphasize that the heights and volumes of the two stacks are the same.
Lesson Synthesis
In this lesson, students explored right and oblique solids, and related Cavalieri’s Principle to the volumes of such solids. Display this image for all to see:
Ask students:
- “Can you identify a right cylinder that would have the same volume as this one?” (One option would be to have the same radius and a height of 25.)
- “Is there any measurement on this diagram that you would not use when calculating the volume?” (We wouldn’t use the 30.)
- “Calculate the volume of this cylinder mentally.” (The area of the base is . Multiply that by the height to get cubic units.)
In prior grades, students established that for right prisms and cylinders. Cavalieri’s Principle now allows this to be extended.
Add the following theorem to the class reference chart, and ask students to add it to their reference charts:
A prism or cylinder whose base has an area of square units and whose height is units has a volume of cubic units, regardless of the shape of the base or whether the solid is oblique. (Theorem)
Student Lesson Summary
Suppose we have a stack of paper in the shape of a rectangular prism. Then we shift the paper so the prism slants to the side. The first is called a right prism because its sides are at right angles to its base. The second one, without right angles between the sides and the base, is called an oblique prism. The volume of the prism doesn’t change when we shift it—the amount of paper stays the same.
In fact, Cavalieri’s Principle says that if any two solids are cut into cross-sections by parallel planes, and the corresponding cross-sections at all heights all have equal areas, then the solids have the same volume.
The oblique cylinder and the right prism in this image have equal volumes because they have the same height and their cross-sections at all heights have the same area of 6 square units.
These two pyramids also have equal volumes. Their bases are congruent, and they have the same height. Shifting a solid from right to oblique doesn’t change its volume.
A pyramid with a square base. The sides of the base are labeled 5. The height, inside the pyramid, is labeled 7. Another pyramid, slanted to the right, with square base. The sides of the base are labeled 5. The height, outside the pyramid, is labeled 7.