Title | Description | Thumbnail Image | Curriculum Topics |
---|---|---|---|
VIDEO: 3D Geometry Animation: Antiprism |
This animated sequence showsan antiprism from top to bottom. |
3-Dimensional Figures, Triangular Prisms | |
VIDEO: 3D Geometry Animation: Antiprism Folding Out into Two Pyramids |
This animated sequence shows an antiprism unfolding into two pyramids. |
3-Dimensional Figures | |
VIDEO: 3D Geometry Animation: Cone |
This animated sequence shows a cone from top to bottom. |
3-Dimensional Figures, Cones | |
VIDEO: 3D Geometry Animation: Cube |
This animated sequence shows a cube from top to bottom. |
3-Dimensional Figures, Cubes | |
VIDEO: 3D Geometry Animation: Cylinder |
This animated sequence shows a cylinder from top to bottom. |
3-Dimensional Figures, Cylinders | |
VIDEO: 3D Geometry Animation: Octahedron |
This animated sequence shows an octahedron from top to bottom. |
3-Dimensional Figures | |
VIDEO: 3D Geometry Animation: Pyramid |
This animated sequence shows a pyramid from top to bottom. |
3-Dimensional Figures, Pyramids | |
VIDEO: 3D Geometry Animation: Rectangular Prism |
This animated sequence shows a rectangular prism from top to bottom. |
3-Dimensional Figures, Rectangular Prisms | |
VIDEO: 3D Geometry Animation: Tetrahedron |
This animated sequence shows a tetrahedron from top to bottom. |
3-Dimensional Figures | |
VIDEO: 3D Geometry Animation: Triangular Prism |
This animated sequence shows a triangular prism from top to bottom. |
3-Dimensional Figures | |
Closed Captioned Video: Geometry Applications: 3D Geometry |
In this program we explore the properties of three-dimensional figures. We do this in the context of two real-world applications. In the first, we look at the three-dimensional structure of Mayan pyramids. These stair-step structures provide a unique opportunity to also explore sequences and series. In the second application we look at the Shanghai Tower as an example of cylindrically shaped structures. A Video Transcript is available for this tutorial at this Link Note: The download is Media4Math's guide to closed captioned videos. Other Closed Captioned VideosTo see the complete collection of Closed Captioned Videos, click on this Link |
3-Dimensional Figures | |
Closed Captioned Video: Geometry Applications: 3D Geometry, Segment 1: Introduction. |
We visit ancient Greece to learn about the Platonic Solids. This provides an introduction to the more general topic of three-dimensional figures. This video includes a video transcript: https://media4math.com/library/video-transcript-geometry-applications-3d-geometry-segment-1-introduction A Video Transcript is available for this tutorial at this Link Note: The download is Media4Math's guide to closed captioned videos. Other Closed Captioned VideosTo see the complete collection of Closed Captioned Videos, click on this Link |
3-Dimensional Figures | |
Closed Captioned Video: Geometry Applications: 3D Geometry, Segment 2: Pyramids |
Rectangular Prisms. Mayan pyramids are essentially stacks of rectangular prisms. The volume of each successive level is a percentage decrease of its lower neighbor. This introduces the notion of a geometric sequence and series, including an infinite series. A Video Transcript is available for this tutorial at this Link Note: The download is Media4Math's guide to closed captioned videos. Other Closed Captioned VideosTo see the complete collection of Closed Captioned Videos, click on this Link |
3-Dimensional Figures, Pyramids | |
Closed Captioned Video: Geometry Applications: 3D Geometry, Segment 3: Cylinders |
The Shanghai Tower in China is a stack of cylindrical shapes, where each successive layer is a percentage decrease of its lower neighbor. As with the previous section, this introduces the notion of a geometric sequence and series. A Video Transcript is available for this tutorial at this Link Note: The download is Media4Math's guide to closed captioned videos. Other Closed Captioned VideosTo see the complete collection of Closed Captioned Videos, click on this Link |
3-Dimensional Figures, Cylinders | |
Geometry Applications Teachers Guide: 3D Geometry |
This is the Teacher's Guide that accompanies Geometry Applications: 3D Geometry. To view the full video: https://www.media4math.com/library/geometry-applications-3d-geometry This video includes a Video Transcript: https://www.media4math.com/library/video-transcript-geometry-applications-3d-geometry |
Applications of 3D Geometry | |
VIDEO: Geometry Applications: 3D Geometry |
In this program we explore the properties of three-dimensional figures. We do this in the context of two real-world applications. In the first, we look at the three-dimensional structure of Mayan pyramids. These stair-step structures provide a unique opportunity to also explore sequences and series. In the second application we look at the Shanghai Tower as an example of cylindrically shaped structures. This video includes a video transcript: https://media4math.com/library/video-transcript-geometry-applications-3d-geometry This video includes a Teacher's Guide: https://www.media4math.com/library/geometry-applications-teachers-guide-3d-geometry |
3-Dimensional Figures | |
VIDEO: Geometry Applications: 3D Geometry, Segment 1: Introduction. |
We visit ancient Greece to learn about the Platonic Solids. This provides an introduction to the more general topic of three-dimensional figures. This video includes a video transcript: https://media4math.com/library/video-transcript-geometry-applications-3d-geometry-segment-1-introduction |
3-Dimensional Figures | |
VIDEO: Geometry Applications: 3D Geometry, Segment 2: Pyramids |
Rectangular Prisms. Mayan pyramids are essentially stacks of rectangular prisms. The volume of each successive level is a percentage decrease of its lower neighbor. This introduces the notion of a geometric sequence and series, including an infinite series. This video includes a video transcript: https://media4math.com/library/video-transcript-geometry-applications-3d-geometry-segment-2-pyramids A Promethean Flipchart is available for this video: https://www.media4math.com/library/promethean-flipchart-geometry-applications-3d-geometry-1 |
3-Dimensional Figures, Pyramids | |
VIDEO: Geometry Applications: 3D Geometry, Segment 3: Cylinders |
The Shanghai Tower in China is a stack of cylindrical shapes, where each successive layer is a percentage decrease of its lower neighbor. As with the previous section, this introduces the notion of a geometric sequence and series. This video includes a video transcript: https://media4math.com/library/video-transcript-geometry-applications-3d-geometry-segment-3-cylinders A Promethean Flipchart is available for this video: https://www.media4math.com/library/promethean-flipchart-geometry-applications-3d-geometry-2 |
3-Dimensional Figures, Cylinders | |
Math Example: Volume: Example 01 |
Volume: Example 1. Find the volume of a rectangular prism when all measurements are expressed as numbers. Note: The download is a JPG file. Related ResourcesTo see the complete collection of Math Examples on this topic, click on this link: https://bit.ly/2AToSpn |
Volume | |
Math Example: Volume: Example 02 |
Volume: Example 2. Find the volume of a rectangular prism when all measurements are expressed as variables.Note: The download is a JPG file. Related ResourcesTo see the complete collection of Math Examples on this topic, click on this link: https://bit.ly/2AToSpn |
Volume | |
Math Example: Volume: Example 03 |
Volume: Example 3. Find the volume of a hollow rectangular prism when all measurements are expressed as numbers. Note: The download is a JPG file. Related ResourcesTo see the complete collection of Math Examples on this topic, click on this link: https://bit.ly/2AToSpn |
Volume | |
Math Example: Volume: Example 04 |
Volume: Example 4. Find the volume of a hollow rectangular prism when all measurements are expressed as variables. Note: The download is a JPG file. Related ResourcesTo see the complete collection of Math Examples on this topic, click on this link: https://bit.ly/2AToSpn |
Volume | |
Math Example: Volume: Example 05 |
Volume: Example 5. Find the volume of a triangular prism when all measurements are expressed as numbers.Note: The download is a JPG file. Related ResourcesTo see the complete collection of Math Examples on this topic, click on this link: https://bit.ly/2AToSpn |
Volume | |
Math Example: Volume: Example 06 |
Volume: Example 6. Find the volume of a triangular prism when all measurements are expressed as variables.Note: The download is a JPG file. Related ResourcesTo see the complete collection of Math Examples on this topic, click on this link: https://bit.ly/2AToSpn |
Volume |