The students will connect Pascalâs Triangle to binomial expansion, make a generalization, and prove it!

Pascal and Binomial Expansion - Connections Revealed!

12 minutes

Although Pascal’s Triangle is named after seventeenth century mathematician, Blaise Pascal, several other mathematicians knew about and applied their knowledge of the triangle HUNDREDS of years before the birth of Pascal in 1623. Today we will study this fascinating triangle on our way to creating a short-cut to last night’s homework assignment!

Begin by asking the students to share out what patterns emerged from yesterday’s study. Prompt them to talk about the structure of the triangle, and any conclusions that can be made. This is important when working to connect yesterday’s learning to today’s extension lesson. If the students have not yet made the connection between the coefficients in the homework assignment and Pascal’s Triangle through the course of the discussion, take time to ask them to expand simple binomials such as the following:

(x +y)^{0}

(x +y)^{1}

(x +y)^{2}

(x +y)^{3}

(x +y)^{4}

Note to the students that although Pascal’s Triangle has MANY unique features and connections, we will focus our study today on this particular connection, that is, the connection between it and the expansion of binomials.

20 minutes

15 minutes

Now that we have proven the theorem, I ask the students to use it (in connection with the triangle) to re-do their homework assignment from last night.

After the students have time to complete a couple of the problems, I ask them if they like the theorem as a shortcut to traditional binomial expansion – the answer is always a unanimous “YES!”

Circulate Homework Assignment: Using the Binomial Theorem. With as long as this lesson was, it will most certainly be about time for the bell to ring.