Lesson 4

The purpose of this warm-up is for students to consider the information they need to find the volume of a rectangular prism and use the structure of a rectangular prism to think about a reasonable estimate. Students can see the 9 cubes on the front layer, but it is difficult to see how many layers there are.

The purpose of an Estimation Exploration is to think about reasonableness based on experience and known information. It gives students a low-stakes opportunity to share a mathematical claim and the thinking behind it (MP3). Making an estimate or a range of reasonable answers with incomplete information is a part of modeling with mathematics (MP4).

• Groups of 2
• Display image
• “¿Qué estimación sería muy alta?, ¿muy baja?, ¿razonable?” // “What is an estimate that’s too high?” “Too low?” “About right?”

• 1 minute: quiet think time
• 1 minute: partner discussion
• Share and record responses

• “¿Por qué los múltiplos de 9 son buenas estimaciones?” // “Why are multiples of 9 good estimates?” (We can see the layer of 9.)
• “¿Qué información les ayudaría a encontrar el número exacto de cubos del prisma?” // “What information would help you to find the exact number of cubes in the prism?” (How many layers of 9 cubes there are. How deep the prism goes.)
• “A partir de esta discusión, ¿alguien quiere ajustar su estimación?” // “Based on this discussion does anyone want to revise their estimate?”
• Optional: Reveal a picture that shows the number of layers, 10.

  

  

Math Community

• Ask students to reflect on both individual and group actions while considering the question “¿Qué normas o expectativas tuvimos en mente cuando hicimos matemáticas juntos en nuestra comunidad matemática?” // “What norms, or expectations, were we mindful of as we did math together in our mathematical community?”
• Record and display their responses under the “Norms”​ ​header.

In the previous lesson, students reasoned abstractly about the volume of rectangular prisms when they considered the volume in terms of layers or equal groups of unit cubes. This activity continues to develop the idea of decomposing rectangular prisms into layers. Students explicitly multiply the number of cubes in a base layer by the number of layers. Students can use any layer in the prism as the base layer as long as the height is the number of those base layers.

• Have connecting cubes available for students who need them.

• Groups of 2
• Display first image from student workbook
• “¿Qué saben sobre el volumen de este prisma?” // “What do you know about the volume of this prism?”
• “¿Qué necesitarían para encontrar el volumen exacto de este prisma?” // “What would you need to find out to find the exact volume of this prism?”
• “En esta actividad, van a trabajar con prismas que solo están llenos parcialmente” // “You are going to work with prisms that are only partially filled in this activity.”
• Give students access to connecting cubes.

• 5 minutes: independent work time
• 5 minutes: partner work time
• As students work, monitor for:
  • students who notice that prisms A and D and prisms B and C are “the same” but they are sitting on different faces so the layers might be counted in different ways.
  • students who reason about the partially filled prisms by referring to the cubes in one layer they would see if all of the cubes were shown.
  • students who recognize that there are several different layers they can use to determine the volume of a prism, all of which result in the same volume.

• Display the expressions:
  • \(2 \times 12\)
  • \(3 \times 8\)
• “¿Cómo representan estas expresiones el volumen del prisma A?” // “How do these expressions represent the volume of prism A?” (There are two layers of 12. We can also see 3 layers of 8.)
• “¿Cómo nos ayuda pensar en capas a encontrar el volumen de prismas que no están completamente llenos?” // “How does thinking about layers help us find the volume of prisms that are not completely filled?” (I know that all the layers have the same number of cubes even if they are not shown.)

In the previous activity, students saw that a rectangular prism is composed of layers and there are different ways to decompose a prism into layers, depending on how students view the prism and decompose the prism. Students recognize that the volume remains the same, regardless of the orientation of the prism. The goal of this activity is for students to identify how different expressions represent the volume of the same prism and correspond to the organization of the layers. Students have worked with parentheses in previous grades, so the lesson synthesis provides an opportunity for students to revisit expressions with parentheses. Students will have more experience with evaluating expressions with grouping symbols in future lessons. Students go back and forth between numerical expressions and a geometric object whose volume is represented by the expression (MP2).

• Have connecting cubes available for students who need them.

• Groups of 2
• “Van a analizar varias maneras de encontrar el volumen de un prisma rectangular” // “You are going to analyze different ways to find the volume of a rectangular prism.”
• Give students access to connecting cubes.

• 5 minutes: independent work time
• 5 minutes: group work time
• Monitor for students who identify the factor 5 or 6 as the number of layers and the second factor is then the number of cubes in each layer.

If students do not explain how the expression represents the volume of the prism, ask “¿Puedes explicar cómo encontrarías el volumen de este prisma?” // “Can you explain how you would find the volume of this prism?” Then, connect the student’s description to the numbers in the expressions.

• “¿Cómo la expresión \(5 \times 24\) representa el volumen del prisma?” // “How does \(5 \times 24\) represent the volume of the prism?” (There are 5 layers if I cut the prism horizontally and each layer has 24 cubes in it.)
• Display expression: \(5\times(4\times6)\)
• “¿Cómo representa esta expresión el volumen del prisma?” // “How does this expression represent the volume of the prism?” (It shows the 5 layers and the 24 cubes as 4 rows of 6 cubes in each layer.)
• “¿Cómo la expresión \(6\times20\) representa el volumen del prisma?” // “How does \(6\times20\) represent the volume of the prism?” (There are 6 layers if I cut vertically along the front face. Each layer has 5 rows of 4 or 20 cubes.)
• Display expression: \(6\times(4\times5)\).
• “¿Cómo representa esta expresión el volumen del prisma?” // “How does this expression represent the volume of the prism?” (It shows the 6 layers and 4 columns of 5 cubes in each layer.)