11X1 T13 02 sketching polynomials

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Nigel Simmons

Education Technology

Sketching Polynomials
When drawing y = P(x)
• y intercept is the constant

e.g. y   x  1 x  1  x  2 
3 2

 y









x

       











Sketching Polynomials
When drawing y = P(x)
• y intercept is the constant
• x intercepts are the roots

Sketching Polynomials
When drawing y = P(x)
• y intercept is the constant
• x intercepts are the roots
• as x   , P(x) acts like the leading term

e.g. y   x  1 x  1  x  2 
3 2

 y

graph starts here 







x

       











e.g. y   x  1 x  1  x  2 
3 2

 y

graph starts here  graph finishes here






x

       











Sketching Polynomials
When drawing y = P(x)
• y intercept is the constant
• x intercepts are the roots
• as x   , P(x) acts like the leading term
• even powered roots look like or

e.g. y   x  1  x  1  x  2   x  2 
4 3 2

e.g. y   x  1  x  1  x  2   x  2 
4 3 2

y



x

     





Exercise 4B; 3cei, 4deghi, 6acm 7ac, 8, 11

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11X1 T13 02 sketching polynomials

1. Sketching Polynomials When drawing y = P(x) • y intercept is the constant

2. e.g. y   x  1 x  1  x  2  3 2  y     x             

3. Sketching Polynomials When drawing y = P(x) • y intercept is the constant • x intercepts are the roots

4. e.g. y   x  1 x  1  x  2  3 2  y     x             

5. Sketching Polynomials When drawing y = P(x) • y intercept is the constant • x intercepts are the roots • as x   , P(x) acts like the leading term

6. e.g. y   x  1 x  1  x  2  3 2  y     x             

7. e.g. y   x  1 x  1  x  2  3 2  y graph starts here     x             

8. e.g. y   x  1 x  1  x  2  3 2  y graph starts here  graph finishes here    x             

9. Sketching Polynomials When drawing y = P(x) • y intercept is the constant • x intercepts are the roots • as x   , P(x) acts like the leading term • even powered roots look like or

10. e.g. y   x  1 x  1  x  2  3 2  y graph starts here  graph finishes here    x             

11. Sketching Polynomials When drawing y = P(x) • y intercept is the constant • x intercepts are the roots • as x   , P(x) acts like the leading term • even powered roots look like or • odd powered roots look like or

12. e.g. y   x  1 x  1  x  2  3 2  y graph starts here  graph finishes here    x             

13. e.g. y   x  1 x  1  x  2  3 2  y     x             

14. Sketching Polynomials When drawing y = P(x) • y intercept is the constant • x intercepts are the roots • as x   , P(x) acts like the leading term • even powered roots look like or • odd powered roots look like or • If the polynomial can be written as  x  a  , then it is a basic curve n

15. e.g. y   x  1  x  1  x  2   x  2  4 3 2

16. e.g. y   x  1  x  1  x  2   x  2  4 3 2 y  x        

17. Exercise 4B; 3cei, 4deghi, 6acm 7ac, 8, 11

11X1 T13 02 sketching polynomials

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