Title | Description | Thumbnail Image | Curriculum Topics |
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Google Earth Voyager Story: Quadrilateral Structures I |
Google Earth Voyager Story: Quadrilateral Structures IIn this Google Earth Voyager Story, explore the geometry of quadrilaterals in the context of architecture. |
Applications of Quadrilaterals | |
Google Earth Voyager Story: Quadrilateral Structures II |
Google Earth Voyager Story: Quadrilateral Structures IIIn this Google Earth Voyager Story, explore the geometry of quadrilaterals in the context of architecture. |
Applications of Quadrilaterals | |
Google Earth Voyager Story: The Geometry of Castles |
Google Earth Voyager Story: The Geometry of CastlesDuring Medieval times, castles were fortresses, mini-cities where the royalty lived, and symbols of power. Most castles were tall, imposing structures. But why were they so tall? Was it just for symbolic reasons, to allow a king to show his center of power and influence? |
Applications of Angles and Planes | |
Google Earth Voyager Story: The Geometry of Sustainable Architecture, Part 1 |
Google Earth Voyager Story: The Geometry of Sustainable Architecture, Part 1In this Google Earth Voyager Story learn about the geometric concepts that underly sustainable architecture. How do architects build tall skyscraper that can retain heat when its cold? |
Applications of Surface Area and Volume and Rational Functions and Equations | |
Google Earth Voyager Story: The Geometry of Sustainable Architecture, Part 2 |
In this Google Earth Voyager Story study the sustainable architecture designed for life in Antarctica. Why Antarctica? There are several research stations in the Antarctic where scientists a great deal of the year conducting research. |
Surface Area, Volume and Rational Functions and Equations | |
Google Earth Voyager Story: Triangular Structures |
Applications of Triangles | ||
Interactive Crossword Puzzle--Circles |
Interactive Crossword Puzzle--CirclesThis interactive crossword puzzle tests knowledge of key terms on the topic of circles. |
Definition of a Circle | |
Interactive Math Game--Memory Game: Circles |
Interactive Math Game--Memory Game: CirclesUse this math game to review circles. This is a Memory-style game in which students must remember the location of pairs of identical images. |
Definition of a Circle | |
Math Clip Art--Net for a Cube |
Math Clip Art--Net for a CubeThis is part of a collection of math clip art images that show two-dimensional nets for 3D objects. |
3-Dimensional Figures | |
Math Clip Art--Net for a Pyramid |
Math Clip Art--Net for a PyramidThis is part of a collection of math clip art images that show two-dimensional nets for 3D objects. |
3-Dimensional Figures | |
Math Clip Art--Net for a Rectangular Prism |
Math Clip Art--Net for a Rectangular PrismThis is part of a collection of math clip art images that show two-dimensional nets for 3D objects. |
3-Dimensional Figures | |
Math Clip Art--Net for a Triangular Prism |
Math Clip Art--Net for a Triangular PrismThis is part of a collection of math clip art images that show two-dimensional nets for 3D objects. |
3-Dimensional Figures | |
Math Clip Art--Net for an Antiprism |
Math Clip Art--Net for an AntiprismThis is part of a collection of math clip art images that show two-dimensional nets for 3D objects. |
3-Dimensional Figures | |
Video Transcript: Geometry Applications: 3D Geometry |
Video Transcript: Geometry Applications: 3D GeometryThis is the transcript for the video of same title. Video contents: 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. |
3-Dimensional Figures and Applications of 3D Geometry | |
Video Transcript: Geometry Applications: 3D Geometry, Segment 1: Introduction |
Video Transcript: Geometry Applications: 3D Geometry, Segment 1: IntroductionThis is the transcript for the video of same title. Video contents: We visit ancient Greece to learn about the Platonic Solids. This provides an introduction to the more general topic of three-dimensional figures. |
3-Dimensional Figures and Applications of 3D Geometry | |
Video Transcript: Geometry Applications: 3D Geometry, Segment 2: Pyramids |
Video Transcript: Geometry Applications: 3D Geometry, Segment 2: PyramidsThis is the transcript for the video of same title. Video contents: Rectangular Prisms. Mayan pyramids are essentially stacks of rectangular prisms. The volume of each successive level is a percentage decrease of its lower neighbor. |
3-Dimensional Figures and Applications of 3D Geometry | |
Video Transcript: Geometry Applications: 3D Geometry, Segment 3: Cylinders |
Video Transcript: Geometry Applications: 3D Geometry, Segment 3: CylindersThis is the transcript for the video of same title. Video contents: The Shanghai Tower in China is a stack of cylindrical shapes, where each successive layer is a percentage decrease of its lower neighbor. |
3-Dimensional Figures and Applications of 3D Geometry | |
Video Transcript: Geometry Applications: Angles and Planes |
Video Transcript: Geometry Applications: Angles and PlanesThis is the transcript for the video of same title. Video contents: In this program we explore the properties of angles and planes. We do this in the context of two real-world applications. |
Definition of an Angle and Applications of Angles and Planes | |
Video Transcript: Geometry Applications: Angles and Planes, Segment 1: Introduction |
Video Transcript: Geometry Applications: Angles and Planes, Segment 1: IntroductionThis is the transcript for the video of same title. Video contents: The observatory in Arecibo, Puerto Rico provides astronomers insights into the structure of our solar system. Geometrically, the solar system relies on the plane known as the ecliptic. |
Applications of Points and Lines | |
Video Transcript: Geometry Applications: Angles and Planes, Segment 2: Angles |
Video Transcript: Geometry Applications: Angles and Planes, Segment 2: AnglesThis is the transcript for the video of same title. Video contents: Himeji castle in Japan is a marvel of architecture and a startling example of geometry and military science. |
Applications of Points and Lines | |
Video Transcript: Geometry Applications: Angles and Planes, Segment 3: Planes |
Video Transcript: Geometry Applications: Angles and Planes, Segment 3: PlanesThis is the transcript for the video of same title. Video contents: In the Canadian Rockies, the Burgess Shale fossils provide a window to prehistoric Earth. Fossil layers are folded into sedimentary rocks. And sedimentary rocks are examples of parallel planes. |
Applications of Points and Lines | |
Video Transcript: Geometry Applications: Area and Volume |
Video Transcript: Geometry Applications: Area and VolumeThis is the transcript for the video of same title. Video contents: In this program we look at applications of area and volume. We do this in the context of three real-world applications. In the first, we look at the sinking of the Titanic in the context of volume and density. |
Applications of Surface Area and Volume | |
Video Transcript: Geometry Applications: Area and Volume, Segment 1: Volume and Density. |
Video Transcript: Geometry Applications: Area and Volume, Segment 1: Volume and Density.This is the transcript for the video of same title. Video contents: The sinking of the Titanic provides an opportunity to explore volume, density, and buoyancy. |
Applications of Surface Area and Volume | |
Video Transcript: Geometry Applications: Area and Volume, Segment 2: Surface Area. |
Video Transcript: Geometry Applications: Area and Volume, Segment 2: Surface Area.This is the transcript for the video of same title. Video contents: The glass-paneled pyramid at the Louvre Museum in Paris is a tessellation of rhombus-shaped glass panels. |
Applications of Surface Area and Volume | |
Video Transcript: Geometry Applications: Area and Volume, Segment 3: Ratio of Surface Area to Volume |
Video Transcript: Geometry Applications: Area and Volume, Segment 3: Ratio of Surface Area to VolumeThis is the transcript for the video of same title. Video contents: The Citibank Tower in New York City presents some unique design challenges. In addition it has to cope with a problem that all tall structure have to deal with: heat loss. |
Applications of Surface Area and Volume |