SWBAT:
• Define and identify edges, faces, and vertices on 3D figures
• Identify and classify prisms, pyramids, and curved solids.

How are these two figures similar? How are they different? Students learn vocabulary words so they can precisely classify 3D solids.

5 minutes

See my **Do Now** in my Strategy folder that explains my beginning of class routines.

Often, I create do nows that have problems that connect to the task that students will be working on that day. Today I want students to think about what they already know about the words “three-dimensional” and “3D”. Some students may think about 3D movies while other students may mention length, width, and height.

I call on a student to share one idea. That student then calls on the next student to share his/her idea. I encourage students to build on what their classmates have said by using sentence starters like, “I agree/disagree with __________ because…” and “My idea connects with ____________’s idea…” Students are engaging in **MP3: Construct viable arguments and critique the reasoning of others.**

5 minutes

I read over the definition and the question. I tell students that they can jot down short observations rather than writing complete sentences. Students may not be familiar with vocabulary words that help them describe the similarity and differences between these two figures and that is okay. We will revisit this question at the end of the lesson. I quickly call on a few students to share out observations.

10 minutes

I give students a minute to preview the video notes before we begin. Students fill out the notes as we watch the video. I frequently pause the video so students have time to fill in their notes.

Students work on the guided practice questions independently. Students participate in a **Think Pair Share** about their answers. I call on students to share out their answers. I ask, “What is the difference between a pyramid and a prism?” I want students to be able to define prism and pyramid. I stress that a prism is made up of faces that are polygons.

20 minutes

**Notes:**

- Before this lesson I
**Create Heterogeneous Groups.** - For this lesson I have a set of 3D figures for each group. Here is an example
- I
**Post A Key**of the 3D figures chart.

I introduce the task to the students. I show them the “Naming Three-Dimensional Figures” sheet. I pick out the cube (which I labeled as figure 1). I call on students to ask and answer the questions on the sheet. I ask a student to define “congruent”. Once we have identified it as a cube, I ask for volunteers to identify and count the faces, edges, and vertices.

I review expectations and announce groups. I pass out the materials to groups. As students work I walk around and monitor student progress and behavior. I take note of figures that multiple groups are struggling to classify.

If students are struggling I encourage them to use their notes and the “Naming Three-Dimensional Figures” sheet. Students have all the resources they need to determine each figure’s name and characteristics. Students are engaging in **MP3: Construct viable arguments **and** critique the reasoning of others and MP6: Attend to precision**.

When a group completes the chart, they raise their hands. I quickly scan their work. If they are on track, I send them to check with the key. If there are problems, I tell students what they need to revise. If students successfully complete the chart they can work on the extra practice.

10 minutes

I have students flip to the **Closure **problem. I read the prompt and remind students that they now should be able to use *specific *vocabulary words to describe the similarities and differences. Students participate in a **Think Pair Share. **I call on students to share their ideas. I push students to be as specific and precise as possible with their observations. I want students to be able to explain that figure A is a prism while figure B is a pyramid. Although the names of these figures are not on the naming sheet I push students to come up with names before I tell them the names. Students are engaging in **MP3: Construct viable arguments and critique the reasoning of others, MP6: Attend to precision, **and **MP7: Look for and make sense of structure.**

I pass out the **Ticket to Go **and the **HW Classifying 3D Figures.**