Content Showcase: Video Library

 

 

Media4Math's Video Library is a collection of videos on key topics in pre-algebra and algebra. Each video includes several worked-out examples that clearly explain the key concept. All videos include real-world applications of math.

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Video Library

Number of Resources: 1627
Title Thumbnail Image Description

Closed Captioned Video: Geometry Applications: Transformations, 3

Closed Captioned Video: Geometry Applications: Transformations, Segment 3: Rotations, Reflections, and Symmetry.

Closed Captioned Video: Geometry Applications: Transformations, Segment 3: Rotations, Reflections, and Symmetry.

The Gemini telescope in Hawaii is an example of architecture that moves. All observatories rotate in order to follow objects in the sky. This also provides an opportunity to explore rotations, reflections, and symmetry.

Closed Captioned Video: Geometry Applications: Transformations, 2

Closed Captioned Video: Geometry Applications: Transformations, Segment 2: 3D Translations.

Closed Captioned Video: Geometry Applications: Transformations, Segment 2: 3D Translations.

Cargo ships transport tons of merchandise from one country to another and accounts for most of the global economy. Loading and unloading these ships requires a great deal of organization and provides an ideal example of three-dimensional translations.

Closed Captioned Video: Geometry Applications: Transformations, 3

Closed Captioned Video: Geometry Applications: Transformations, Segment 1: Translations and Rotations.

Closed Captioned Video: Geometry Applications: Transformations, Segment 1: Translations and Rotations.

Roller coasters provide an ideal opportunity to explore translations and rotations. Displacement vectors are also introduced.

Closed Captioned Video: Geometry Applications: Transformations

Closed Captioned Video: Geometry Applications: Transformations

Closed Captioned Video: Geometry Applications: Transformations

In this program we look at applications of transformations. We do this in the context of three real-world applications. In the first, we look at translations and rotations in the context of roller coaster rides.

Closed Captioned Video: Geometry Applications: Quadrilaterals, 3

Closed Captioned Video: Geometry Applications: Quadrilaterals, Segment 3: Parallelograms and Trapezoids

Closed Captioned Video: Geometry Applications: Quadrilaterals, Segment 3: Parallelograms and Trapezoids

The Puerta de Europa towers in Madrid bring parallelograms front and center. These tilted towers, looking like modern-day towers of Pisa seem to defy gravity, but rely on the stability brought about by its quadrilateral structure.

Closed Captioned Video: Geometry Applications: Quadrilaterals, 2

Closed Captioned Video: Geometry Applications: Quadrilaterals, Segment 2: Squares and Rectangles

Closed Captioned Video: Geometry Applications: Quadrilaterals, Segment 2: Squares and Rectangles

Frank Lloyd Wright’s architectural masterpiece Falling Water is also a stunning assembly of quadrilateral shapes.

Closed Captioned Video: Geometry Applications: Quadrilaterals, 1

Closed Captioned Video: Geometry Applications: Quadrilaterals, Segment 1: Introduction

Closed Captioned Video: Geometry Applications: Quadrilaterals, Segment 1: Introduction

Stonehenge is best known as a circular structure. But it's the post and lintel construction used that is noteworthy, and this type of construction involves quadrilateral shapes.

Closed Captioned Video: Geometry Applications: Quadrilaterals

Closed Captioned Video: Geometry Applications: Quadrilaterals

Closed Captioned Video: Geometry Applications: Quadrilaterals

In this program we explore the properties of quadrilaterals. We do this in the context of two real-world applications. In the first, we explore the architecture of Frank Lloyd Wright as an application of squares and rectangles; in particular, we look at his Fallingwater house.

Closed Captioned Video: Geometry Applications: Polygons, 3

Closed Captioned Video: Geometry Applications: Polygons, Segment 3: Composite Figures

Closed Captioned Video: Geometry Applications: Polygons, Segment 3: Composite Figures

The Petronas Towers in Indonesia provide an opportunity to explore the composite shapes used in the design of the towers.

Closed Captioned Video: Geometry Applications: Polygons, 2

Closed Captioned Video: Geometry Applications: Polygons, Segment 2: Properties of Polygons

Closed Captioned Video: Geometry Applications: Polygons, Segment 2: Properties of Polygons

In the ancient city of Marrakesh polygons are on display.

Closed Captioned Video: Geometry Applications: Polygons, 1

Closed Captioned Video: Geometry Applications: Polygons, Segment 1: Introduction

Closed Captioned Video: Geometry Applications: Polygons, Segment 1: Introduction

The Pentagon is one of the most famous polygon-shaped buildings in the world. But why was this shape chosen over a more straightforward quadrilateral shape?

Closed Captioned Video: Geometry Applications: Polygons

Closed Captioned Video: Geometry Applications: Polygons

Closed Captioned Video: Geometry Applications: Polygons

In this program we explore the properties of polygons. We do this in the context of two real-world applications. In the first, we look at Islamic tile patterns as examples of regular polygons. We explore how such intricate patterns were created using a compass and straight edge.

Closed Captioned Video: Geometry Applications: Points and Lines, 3

Closed Captioned Video: Geometry Applications: Points and Lines, Segment 3: Lines

Closed Captioned Video: Geometry Applications: Points and Lines, Segment 3: Lines

Many cities are laid out in a rectangular grid and are examples of intersecting lines and rays. We visit the city of Houston to investigate the geometric nature of the city grid in its downtown area.

Closed Captioned Video: Geometry Applications: Points and Lines, 2

Closed Captioned Video: Geometry Applications: Points and Lines, Segment 2: Points

Closed Captioned Video: Geometry Applications: Points and Lines, Segment 2: Points

Geometric objects are abstractions that seem to have a connection to real world objects.

Closed Captioned Video: Geometry Applications: Points and Lines, 1

Closed Captioned Video: Geometry Applications: Points and Lines, Segment 1: Introduction

Closed Captioned Video: Geometry Applications: Points and Lines, Segment 1: Introduction

Our understanding of geometry owes much to the ancient Greeks. We visit the ancient Acropolis and explore some of its geometric secrets.

Closed Captioned Video: Geometry Applications: Points and Lines

Closed Captioned Video: Geometry Applications: Points and Lines

Closed Captioned Video: Geometry Applications: Points and Lines

In this program we explore the properties of points and lines. We do this in the context of two real-world applications. In the first, we go to CERN and learn about the Large Hadron Collidor.

Closed Captioned Video: Geometry Applications: Coordinate Geometry, 3

Closed Captioned Video: Geometry Applications: Coordinate Geometry, Segment 3: Polar Coordinates.

Closed Captioned Video: Geometry Applications: Coordinate Geometry, Segment 3: Polar Coordinates.

The Guggenheim Museum in New York City has a spiral shape that is an example of a polar coordinate graph. This shape, found often in nature, is a way to understand the Fibonacci Sequence.

Closed Captioned Video: Geometry Applications: Coordinate Geometry, 2

Closed Captioned Video: Geometry Applications: Coordinate Geometry, Segment 2: Rectangular Coordinates.

Closed Captioned Video: Geometry Applications: Coordinate Geometry, Segment 2: Rectangular Coordinates.

Centuries ago a Spanish galleon, The Atocha, sank off the coast of Florida, taking its gold treasure down with it. Aside from the technology used to recover the treasure, it was a rectangular coordinate system that made such an endeavor possible.

Closed Captioned Video: Geometry Applications: Coordinate Geometry, 1

Closed Captioned Video: Geometry Applications: Coordinate Geometry, Segment 1: Longitude and Latitude.

Closed Captioned Video: Geometry Applications: Coordinate Geometry, Segment 1: Longitude and Latitude.

Greenwich, England, is the location of the Prime Meridian and offers a point of departure for a discussion of the longitude and latitude coordinate system.

Closed Captioned Video: Geometry Applications: Coordinate Geometry

Closed Captioned Video: Geometry Applications: Coordinate Geometry

Closed Captioned Video: Geometry Applications: Coordinate Geometry

In this program we look at applications of coordinate geometry. We do this in the context of three real-world applications. In the first, we look at longitude and latitude as a spherical coordinate system for navigation.

Closed Captioned Video: Geometry Applications: Circles, 3

Closed Captioned Video: Geometry Applications: Circles, Segment 3: Chords and Inscribed Angles

Closed Captioned Video: Geometry Applications: Circles, Segment 3: Chords and Inscribed Angles

The Roman Pantheon is a domed structure that shows a keen awareness of the position of the sun throughout the year. The source of light from the top of the dome allows for the exploration of chords, inscribed angles, central angles, and intercepted arcs.

Closed Captioned Video: Geometry Applications: Circles, 2

Closed Captioned Video: Geometry Applications: Circles, Segment 2: Circles and Arcs.

Closed Captioned Video: Geometry Applications: Circles, Segment 2: Circles and Arcs.

The Roman Coliseum is a large elliptical structure. Yet, the Romans likely used circular arcs to build it. This segment explores the properties of circles and shows how arcs can be used to create elliptical shapes.

Closed Captioned Video: Geometry Applications: Circles, 1

Closed Captioned Video: Geometry Applications: Circles, Segment 1: The Basics of Circles.

Closed Captioned Video: Geometry Applications: Circles, Segment 1: The Basics of Circles.

We visit Chaco Canyon in New Mexico to explore the circular kivas and in the process discover how circular buildings have been used to study the heavens.

Closed Captioned Video: Geometry Applications: Circles

Closed Captioned Video: Geometry Applications: Circles

Closed Captioned Video: Geometry Applications: Circles

In this program we explore the properties of circles. We do this in the context of two real-world applications. In the first, we look at the design of the Roman Coliseum and explore how circular shapes could have been used to design this elliptical structure.

Closed Captioned Video: Geometry Applications: Area and Volume, 3

Closed Captioned Video: Geometry Applications: Area and Volume, Segment 3: Ratio of Surface Area to Volume.

Closed Captioned Video: Geometry Applications: Area and Volume, Segment 3: Ratio of Surface Area to Volume.

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.