6.2 Perfect Squares.notebook
Transcription
6.2 Perfect Squares.notebook
6.2 Perfect Squares.notebook 2015 05 04 May 04, 2015 6.2 Perfect Squares pp. 322 ‐ 323 Why are the first two different from the thrid? A. Factor the first two quadratics. Explain why these expressions are called perfect‐square trinomials. 1 6.2 Perfect Squares.notebook May 04, 2015 B. Using algebra tiles, create an arrangement that helps you determine the constant term c that must be added to create perfect‐square trinomials. Verify by factoring each new trinomial you created. 1 1 1 1 1 1 1 1 1 x2 x x x x x2 x x 1 1 1 1 1 x x x x x x 1 x x x x2 x x2 x x x2 x x x x C. For each trinomial you created in part B, compare the coefficient of x and the constant term you added. Explain how these numbers are related. 2 6.2 Perfect Squares.notebook May 04, 2015 D. How are the expressions below different from those in part B? 1 x 2 x x x x x x 2 x E. Using algebra tiles or an area diagram, determine the constant term c that must be added to each of the expressions in part D to create perfect‐square trinomials. Verify by factoring each new trinomial. F. For each trinomial you created for part E, compare the coefficient of x and the constant term you added. Does the relationship you discovered in part C still apply? 3 6.2 Perfect Squares.notebook May 04, 2015 G. Each expression below contains a common factor. Factor the expression and then determine the constant term c that must be added to each expression to make it a multiple of a perfect‐ square trinomial. Verify by factoring each new trinomial. Assigned Work: pp. 323 # 1, 2 ace 4 6.2 Perfect Squares.notebook May 04, 2015 5