Math Videos for Grade 8

These short clips are the same videos many CMP3 teachers use to review key math concepts when they prepare to teach CMP3 lessons. Use these helpful videos to bolster your math knowledge as you help your student with homework. The video clips highlight important mathematical ideas and concepts in each CMP3 Unit in an easy-to-understand, visual way.

Thinking With Mathematical Models

  • Rectangles With Area 12: Graphing Factor Pairs

    The Grade 6 Unit Prime Time covered the relationship between factor pairs of a number and rectangles with area equal to the number. By superimposing the factor-pair rectangles for a number on top of each other, students can see the symmetry of the factor pairs. This video shows the inverse variation relationship that results when you graph those factor pairs as coordinates.

    Inverse variation refers to a nonlinear relationship in which the product of two variables is constant. In the context of these rectangles, the two variables are length (I) and width (w). Their area, or the product of the variables l and w, is constant.

    An inverse variation can be represented by an equation of the form y = k/x, or xy = k, where k is a constant. In an inverse variation, the values of one variable decrease as the values of the other variable increase.

  • Identifying Correlation Coefficients The correlation coefficient is a number between 1 and –1 that tells how closely a pattern of data points fits a straight line. This video shows the correlation coefficient of various sets of data points.
  • Connecting Equations, Tables, and Graphs There are many ways to represent relationships between two quantitative variables, such as equations, tables, and graphs. This video illustrates the relationships among these representations. It is important for students to move freely among the various representations. By the end of the Unit, students should feel very comfortable with tables and graphs and with some simple equations. Students should also have an appreciation of the advantages and disadvantages of each representation.

Looking for Pythagoras

  • Proving the Pythagorean Theorem The Pythagorean Theorem states that, if the lengths of the legs of a right triangle are a and b, and the length of the hypotenuse is c, then a2 + b2 = c2. This video shows a geometric proof of the Pythagorean Theorem.

Growing, Growing, Growing

  • Exponential and Linear Functions When making tables, students usually generate each value in the table by working with the previous value. Either they add a constant to the previous value (in the case of linear relationships) or they multiply the previous value by a constant (in the case of exponential relationships). This process of generating a value from a previous value is called recursion, or iteration. It is important to distinguish between a constant growth factor (multiplicative), as illustrated in an exponential function, and the constant additive pattern in linear functions. This video illustrates successive iterations for linear and exponential growth.
  • Patterns in the Table of Powers In this Unit, students begin to develop understanding of the rules of exponents by examining patterns in the table of powers for the first 10 whole numbers. This video describes some of these patterns.

Butterflies, Pinwheels, and Wallpaper

  • Reflection in Parallel Lines In very informal ways, students explore combinations of transformations. In a few instances in the ACE Extensions, students are asked to describe a single transformation that will give the same result as a given combination. This video shows how reflecting a figure in a line and then reflecting the image in a parallel line has the same result as translating the figure in a direction perpendicular to the reflection lines for a distance equal to twice the distance between the lines.
  • Reflection in Intersecting Lines This video shows how reflecting a figure in a line and then reflecting the image in an intersecting line has the same result as rotating the original figure about the intersection point of the lines by an angle equal to twice the angle formed by the reflection lines. Notice that reflecting the triangle ABC in line 1 and then reflecting the image A′B′C′ in line 2 does NOT give the same result as reflecting triangle ABC in line 2 first and then reflecting the image in line 1.

It's In the System