Making connections: Polygons and operations with algebraic expressions – Part 2

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In my previous post on this topic, I presented an investigation about polygons and the possible problems that students can explore with it. In this post, I will try to share with you some ideas on how the simple investigation of drawing polygons with the same area can be used as an introductory lesson to teach operations with algebraic expressions with conceptual understanding.

You can use the following problem solving tasks to facilitate learning of adding, subtracting, multiplying and dividing algebraic expression. Of course, there is more to this lesson than learning just that. Click here to see  Part 1 of this lesson.

Problem 1 – What are the different ways can you find the area of each polygons? Write an algebraic expression that would represent each of your method.

The diagram below are just some of the ways students can find the area of the polygons.

1. by counting each square
2. by dissecting the polygons into parts of a rectangle
3. by completing the polygon into a square or rectangle and take away parts included in the counting
4. by use of formula

The solutions can be represented by the algebraic expressions written below each polygon. Draw the students’ attention to the fact that each of these polygons have the same area of 5x^2 and that all the seven expressions are equal to5x^2 also.

Multiple representations of the same algebraic expressions

Problem 2 – (Ask students to draw polygons with a given area using algebraic expressions with two terms like in the above figure. For example a polygon with area 6x^2-x^2.

Problem 3 – (Ask students to do operations. For example 4.5x^2-x^2.)

Note: Whatever happens, do not give the rule.

Problem 4 – Extension: Draw polygons with area 6xy on an x by y unit grid.

These problem solving tasks not only links geometry and algebra but also concepts and procedures. The lesson also engages students in problem solving and in visualizing solutions and shapes. Visualization is basic to abstraction.

There’s nothing that should prevent you from extending the problem to 3-D. You may want to ask students to show the algebraic expression for calculating the surface area of  solids made of five cubes each with volume x^3. I used Google SketchUp to draw the 3-D models.

some possible shapes made of 5 cubes

Point for reflection

In what way does the lesson show that mathematics is a language, that algebra generalizes?

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4 Responses to Making connections: Polygons and operations with algebraic expressions – Part 2

  1. shaznay says:

    can you give me a M.I about algebra???
    tnx anyway!

  2. Pingback: Teach for conceptual and practical understanding « keeping mathematics simple

  3. Pingback: Mathematics and Multimedia Blog Carnival #1 « Mathematics and Multimedia

  4. 20 says:

    can you give me a title for a research in mathematics teaching?

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