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11X1 T11 01 graphing quadratics

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Nigel Simmons
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The Quadratic Polynomial and the Parabola
The Quadratic Polynomial and the Parabola Quadratic polynomial –
The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c
The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function –
The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c
The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation –
The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0
The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients –
The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients – a, b, c
The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients – a, b, c Indeterminate –
The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients – a, b, c Indeterminate – x
The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients – a, b, c Indeterminate – x Roots –
The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients – a, b, c Indeterminate – x Roots – Solutions to the quadratic equation
The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients – a, b, c Indeterminate – x Roots – Solutions to the quadratic equation Zeroes –
The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients – a, b, c Indeterminate – x Roots – Solutions to the quadratic equation Zeroes – x intercepts of the quadratic function
The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients – a, b, c Indeterminate – x Roots – Solutions to the quadratic equation Zeroes – x intercepts of the quadratic function e.g. Find the roots of x 2  1  0
The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients – a, b, c Indeterminate – x Roots – Solutions to the quadratic equation Zeroes – x intercepts of the quadratic function e.g. Find the roots of x 2  1  0 x2 1  0 x2  1
The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients – a, b, c Indeterminate – x Roots – Solutions to the quadratic equation Zeroes – x intercepts of the quadratic function e.g. Find the roots of x 2  1  0 x2 1  0 x2  1 x  1
The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients – a, b, c Indeterminate – x Roots – Solutions to the quadratic equation Zeroes – x intercepts of the quadratic function e.g. Find the roots of x 2  1  0 x2 1  0 x2  1 x  1  the roots are x  1 and x  1
Graphing Quadratics
Graphing Quadratics The graph of a quadratic function is a parabola.
Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c
Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c a
Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y a x
Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y a x a0
Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y a x a0 concave up
Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 concave up
Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up
Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down
Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down c
Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down c = y intercept
Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down c = y intercept zeroes (roots)
Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down c = y intercept zeroes (roots) = x intercepts
Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down c = y intercept zeroes (roots) = x intercepts b x 2a
Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down c = y intercept zeroes (roots) = x intercepts b x = axis of symmetry 2a
Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down c = y intercept zeroes (roots) = x intercepts b x = axis of symmetry Note: AOS is the average of the zeroes 2a
Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down c = y intercept zeroes (roots) = x intercepts b x = axis of symmetry Note: AOS is the average of the zeroes 2a vertex
Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down c = y intercept zeroes (roots) = x intercepts b x = axis of symmetry Note: AOS is the average of the zeroes 2a vertex x value is the AOS
Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down c = y intercept zeroes (roots) = x intercepts b x = axis of symmetry Note: AOS is the average of the zeroes 2a vertex x value is the AOS y value is found by substituting AOS into the function.
Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down c = y intercept zeroes (roots) = x intercepts b x = axis of symmetry Note: AOS is the average of the zeroes 2a vertex x value is the AOS y value is found by substituting AOS into the function. (It is the maximum/minimum value of the function)
e.g. Graph y  x 2  8 x  12
e.g. Graph y  x 2  8 x  12 a=1>0 y x
e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up y x
e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12 y y  x 2  8 x  12 x
e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  y x
e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  y 12 x
e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes y 12 x
e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12 12 x
e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x
e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2 x
e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  x
e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  –6 –2 x
e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS –6 –2 x
e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS x  b 2a –6 –2 x
e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS x  b 2a 8  2 –6 –2 x  4
e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS x  b OR x  6  2 2a 2 8  2 –6 –2 x  4
e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS x  b OR x  6  2 2a 2 8  4  2 –6 –2 x  4
e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS x  b OR x  6  2 2a 2 8  4  2 –6 –2 x  4
e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS x  b OR x  6  2 2a 2 8  4  2 –6 –2 x  4 vertex
e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS x  b OR x  6  2 2a 2 8  4  2 –6 –2 x  4 y   4   8  4   12 2 vertex
e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS x  b OR x  6  2 2a 2 8  4  2 –6 –2 x  4 y   4   8  4   12 2 vertex  4
e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS x  b OR x  6  2 2a 2 8  4  2 –6 –2 x  4 y   4   8  4   12 2 vertex  4  vertex is  4, 4 
e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS x  b OR x  6  2 2a 2 8  4  2 –6 –2 x  4 y   4   8  4   12 2 vertex (–4, –4)  4  vertex is  4, 4 
e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS x  b OR x  6  2 2a 2 8  4  2 –6 –2 x  4 y   4   8  4   12 2 vertex (–4, –4)  4  vertex is  4, 4 
(ii) Find the quadratic with; a) roots 3 and 6
(ii) Find the quadratic with; a) roots 3 and 6 y  a  x 2  9 x  18 
(ii) Find the quadratic with; a) roots 3 and 6 y  a  x 2  9 x  18    6  3 63
(ii) Find the quadratic with; a) roots 3 and 6 b) monic roots 3  2 and 3  2 y  a  x 2  9 x  18    6  3 63
(ii) Find the quadratic with; a) roots 3 and 6 b) monic roots 3  2 and 3  2 y  a  x 2  9 x  18  y  x2  6x  7   6  3 63 c) roots 2 and 8 and vertex (5,3) y  a  x 2  10 x  16   5,3 : 3  a  52  10  5   16  3  9a 1 a 3  y    x  10 x  16  1 2 3
(ii) Find the quadratic with; a) roots 3 and 6 b) monic roots 3  2 and 3  2 y  a  x 2  9 x  18  y  x2  6x  7   6  3 63   3 2 3 2  3  2 3  2 
(ii) Find the quadratic with; a) roots 3 and 6 b) monic roots 3  2 and 3  2 y  a  x 2  9 x  18  y  x2  6x  7   6  3 63   3 2 3 2  3  2 3  2  c) roots 2 and 8 and vertex (5,3)
(ii) Find the quadratic with; a) roots 3 and 6 b) monic roots 3  2 and 3  2 y  a  x 2  9 x  18  y  x2  6x  7   6  3 63   3 2 3 2  3  2 3  2  c) roots 2 and 8 and vertex (5,3) y  a  x 2  10 x  16 
(ii) Find the quadratic with; a) roots 3 and 6 b) monic roots 3  2 and 3  2 y  a  x 2  9 x  18  y  x2  6x  7   6  3 63   3 2 3 2  3  2 3  2  c) roots 2 and 8 and vertex (5,3) y  a  x 2  10 x  16   5,3 : 3  a  52  10  5   16 
(ii) Find the quadratic with; a) roots 3 and 6 b) monic roots 3  2 and 3  2 y  a  x 2  9 x  18  y  x2  6x  7   6  3 63   3 2 3 2  3  2 3  2  c) roots 2 and 8 and vertex (5,3) y  a  x 2  10 x  16   5,3 : 3  a  52  10  5   16  3  9a 1 a 3
(ii) Find the quadratic with; a) roots 3 and 6 b) monic roots 3  2 and 3  2 y  a  x 2  9 x  18  y  x2  6x  7   6  3 63   3 2 3 2  3  2 3  2  c) roots 2 and 8 and vertex (5,3) y  a  x 2  10 x  16   5,3 : 3  a  52  10  5   16  3  9a 1 a 3  y    x  10 x  16  1 2 3
(iii) Solve; a) x 2  5 x  6  0
(iii) Solve; a) x 2  5 x  6  0  x  2  x  3  0
(iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 –3 –2 x
(iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 –3 –2 x
(iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 –3 –2 x Q: for what values of x is the parabola above the x axis?
(iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 –3 –2 x Q: for what values of x is the parabola above the x axis?
(iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 x  3 or x  2 –3 –2 x Q: for what values of x is the parabola above the x axis?
(iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 x  3 or x  2 –3 –2 x Q: for what values of x is the parabola above the x axis? b)  x 2  3 x  4
(iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 x  3 or x  2 –3 –2 x Q: for what values of x is the parabola above the x axis? b)  x 2  3 x  4 x 2  3x  4  0
(iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 x  3 or x  2 –3 –2 x Q: for what values of x is the parabola above the x axis? b)  x 2  3 x  4 x 2  3x  4  0  x  4  x  1  0
(iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 x  3 or x  2 –3 –2 x Q: for what values of x is the parabola above the x axis? b)  x 2  3 x  4 y x 2  3x  4  0  x  4  x  1  0 –4 1 x
(iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 x  3 or x  2 –3 –2 x Q: for what values of x is the parabola above the x axis? b)  x 2  3 x  4 y x 2  3x  4  0  x  4  x  1  0 –4 1 x
(iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 x  3 or x  2 –3 –2 x Q: for what values of x is the parabola above the x axis? b)  x 2  3 x  4 y x 2  3x  4  0  x  4  x  1  0 –4 1 x Q: for what values of x is the parabola below the x axis?
(iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 x  3 or x  2 –3 –2 x Q: for what values of x is the parabola above the x axis? b)  x 2  3 x  4 y x 2  3x  4  0  x  4  x  1  0 –4 1 x Q: for what values of x is the parabola below the x axis?
(iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 x  3 or x  2 –3 –2 x Q: for what values of x is the parabola above the x axis? b)  x 2  3 x  4 y x 2  3x  4  0  x  4  x  1  0 4  x  1 –4 1 x Q: for what values of x is the parabola below the x axis?
Exercise 8A; 1adf, 2adf, 3bd, 4bd, 5c, 6ade, 7d, 9ace, 12c, 13b, 14a

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11X1 T11 01 graphing quadratics

  • 1. The Quadratic Polynomial and the Parabola
  • 2. The Quadratic Polynomial and the Parabola Quadratic polynomial –
  • 3. The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c
  • 4. The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function –
  • 5. The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c
  • 6. The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation –
  • 7. The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0
  • 8. The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients –
  • 9. The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients – a, b, c
  • 10. The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients – a, b, c Indeterminate –
  • 11. The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients – a, b, c Indeterminate – x
  • 12. The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients – a, b, c Indeterminate – x Roots –
  • 13. The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients – a, b, c Indeterminate – x Roots – Solutions to the quadratic equation
  • 14. The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients – a, b, c Indeterminate – x Roots – Solutions to the quadratic equation Zeroes –
  • 15. The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients – a, b, c Indeterminate – x Roots – Solutions to the quadratic equation Zeroes – x intercepts of the quadratic function
  • 16. The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients – a, b, c Indeterminate – x Roots – Solutions to the quadratic equation Zeroes – x intercepts of the quadratic function e.g. Find the roots of x 2  1  0
  • 17. The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients – a, b, c Indeterminate – x Roots – Solutions to the quadratic equation Zeroes – x intercepts of the quadratic function e.g. Find the roots of x 2  1  0 x2 1  0 x2  1
  • 18. The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients – a, b, c Indeterminate – x Roots – Solutions to the quadratic equation Zeroes – x intercepts of the quadratic function e.g. Find the roots of x 2  1  0 x2 1  0 x2  1 x  1
  • 19. The Quadratic Polynomial and the Parabola Quadratic polynomial – ax 2  bx  c Quadratic function – y  ax 2  bx  c Quadratic equation – ax 2  bx  c  0 Coefficients – a, b, c Indeterminate – x Roots – Solutions to the quadratic equation Zeroes – x intercepts of the quadratic function e.g. Find the roots of x 2  1  0 x2 1  0 x2  1 x  1  the roots are x  1 and x  1
  • 21. Graphing Quadratics The graph of a quadratic function is a parabola.
  • 22. Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c
  • 23. Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c a
  • 24. Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y a x
  • 25. Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y a x a0
  • 26. Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y a x a0 concave up
  • 27. Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 concave up
  • 28. Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up
  • 29. Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down
  • 30. Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down c
  • 31. Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down c = y intercept
  • 32. Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down c = y intercept zeroes (roots)
  • 33. Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down c = y intercept zeroes (roots) = x intercepts
  • 34. Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down c = y intercept zeroes (roots) = x intercepts b x 2a
  • 35. Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down c = y intercept zeroes (roots) = x intercepts b x = axis of symmetry 2a
  • 36. Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down c = y intercept zeroes (roots) = x intercepts b x = axis of symmetry Note: AOS is the average of the zeroes 2a
  • 37. Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down c = y intercept zeroes (roots) = x intercepts b x = axis of symmetry Note: AOS is the average of the zeroes 2a vertex
  • 38. Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down c = y intercept zeroes (roots) = x intercepts b x = axis of symmetry Note: AOS is the average of the zeroes 2a vertex x value is the AOS
  • 39. Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down c = y intercept zeroes (roots) = x intercepts b x = axis of symmetry Note: AOS is the average of the zeroes 2a vertex x value is the AOS y value is found by substituting AOS into the function.
  • 40. Graphing Quadratics The graph of a quadratic function is a parabola. y  ax 2  bx  c y y a x x a0 a0 concave up concave down c = y intercept zeroes (roots) = x intercepts b x = axis of symmetry Note: AOS is the average of the zeroes 2a vertex x value is the AOS y value is found by substituting AOS into the function. (It is the maximum/minimum value of the function)
  • 41. e.g. Graph y  x 2  8 x  12
  • 42. e.g. Graph y  x 2  8 x  12 a=1>0 y x
  • 43. e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up y x
  • 44. e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12 y y  x 2  8 x  12 x
  • 45. e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  y x
  • 46. e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  y 12 x
  • 47. e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes y 12 x
  • 48. e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12 12 x
  • 49. e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x
  • 50. e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2 x
  • 51. e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  x
  • 52. e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  –6 –2 x
  • 53. e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS –6 –2 x
  • 54. e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS x  b 2a –6 –2 x
  • 55. e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS x  b 2a 8  2 –6 –2 x  4
  • 56. e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS x  b OR x  6  2 2a 2 8  2 –6 –2 x  4
  • 57. e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS x  b OR x  6  2 2a 2 8  4  2 –6 –2 x  4
  • 58. e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS x  b OR x  6  2 2a 2 8  4  2 –6 –2 x  4
  • 59. e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS x  b OR x  6  2 2a 2 8  4  2 –6 –2 x  4 vertex
  • 60. e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS x  b OR x  6  2 2a 2 8  4  2 –6 –2 x  4 y   4   8  4   12 2 vertex
  • 61. e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS x  b OR x  6  2 2a 2 8  4  2 –6 –2 x  4 y   4   8  4   12 2 vertex  4
  • 62. e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS x  b OR x  6  2 2a 2 8  4  2 –6 –2 x  4 y   4   8  4   12 2 vertex  4  vertex is  4, 4 
  • 63. e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS x  b OR x  6  2 2a 2 8  4  2 –6 –2 x  4 y   4   8  4   12 2 vertex (–4, –4)  4  vertex is  4, 4 
  • 64. e.g. Graph y  x 2  8 x  12 a = 1 > 0  concave up c = 12  y intercept is  0,12  zeroes x 2  8 x  12  0 y y  x 2  8 x  12  x  6  x  2   0 12 x  6 or x  2  x intercepts are  6,0  and  2,0  AOS x  b OR x  6  2 2a 2 8  4  2 –6 –2 x  4 y   4   8  4   12 2 vertex (–4, –4)  4  vertex is  4, 4 
  • 65. (ii) Find the quadratic with; a) roots 3 and 6
  • 66. (ii) Find the quadratic with; a) roots 3 and 6 y  a  x 2  9 x  18 
  • 67. (ii) Find the quadratic with; a) roots 3 and 6 y  a  x 2  9 x  18    6  3 63
  • 68. (ii) Find the quadratic with; a) roots 3 and 6 b) monic roots 3  2 and 3  2 y  a  x 2  9 x  18    6  3 63
  • 69. (ii) Find the quadratic with; a) roots 3 and 6 b) monic roots 3  2 and 3  2 y  a  x 2  9 x  18  y  x2  6x  7   6  3 63 c) roots 2 and 8 and vertex (5,3) y  a  x 2  10 x  16   5,3 : 3  a  52  10  5   16  3  9a 1 a 3  y    x  10 x  16  1 2 3
  • 70. (ii) Find the quadratic with; a) roots 3 and 6 b) monic roots 3  2 and 3  2 y  a  x 2  9 x  18  y  x2  6x  7   6  3 63   3 2 3 2  3  2 3  2 
  • 71. (ii) Find the quadratic with; a) roots 3 and 6 b) monic roots 3  2 and 3  2 y  a  x 2  9 x  18  y  x2  6x  7   6  3 63   3 2 3 2  3  2 3  2  c) roots 2 and 8 and vertex (5,3)
  • 72. (ii) Find the quadratic with; a) roots 3 and 6 b) monic roots 3  2 and 3  2 y  a  x 2  9 x  18  y  x2  6x  7   6  3 63   3 2 3 2  3  2 3  2  c) roots 2 and 8 and vertex (5,3) y  a  x 2  10 x  16 
  • 73. (ii) Find the quadratic with; a) roots 3 and 6 b) monic roots 3  2 and 3  2 y  a  x 2  9 x  18  y  x2  6x  7   6  3 63   3 2 3 2  3  2 3  2  c) roots 2 and 8 and vertex (5,3) y  a  x 2  10 x  16   5,3 : 3  a  52  10  5   16 
  • 74. (ii) Find the quadratic with; a) roots 3 and 6 b) monic roots 3  2 and 3  2 y  a  x 2  9 x  18  y  x2  6x  7   6  3 63   3 2 3 2  3  2 3  2  c) roots 2 and 8 and vertex (5,3) y  a  x 2  10 x  16   5,3 : 3  a  52  10  5   16  3  9a 1 a 3
  • 75. (ii) Find the quadratic with; a) roots 3 and 6 b) monic roots 3  2 and 3  2 y  a  x 2  9 x  18  y  x2  6x  7   6  3 63   3 2 3 2  3  2 3  2  c) roots 2 and 8 and vertex (5,3) y  a  x 2  10 x  16   5,3 : 3  a  52  10  5   16  3  9a 1 a 3  y    x  10 x  16  1 2 3
  • 76. (iii) Solve; a) x 2  5 x  6  0
  • 77. (iii) Solve; a) x 2  5 x  6  0  x  2  x  3  0
  • 78. (iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 –3 –2 x
  • 79. (iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 –3 –2 x
  • 80. (iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 –3 –2 x Q: for what values of x is the parabola above the x axis?
  • 81. (iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 –3 –2 x Q: for what values of x is the parabola above the x axis?
  • 82. (iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 x  3 or x  2 –3 –2 x Q: for what values of x is the parabola above the x axis?
  • 83. (iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 x  3 or x  2 –3 –2 x Q: for what values of x is the parabola above the x axis? b)  x 2  3 x  4
  • 84. (iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 x  3 or x  2 –3 –2 x Q: for what values of x is the parabola above the x axis? b)  x 2  3 x  4 x 2  3x  4  0
  • 85. (iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 x  3 or x  2 –3 –2 x Q: for what values of x is the parabola above the x axis? b)  x 2  3 x  4 x 2  3x  4  0  x  4  x  1  0
  • 86. (iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 x  3 or x  2 –3 –2 x Q: for what values of x is the parabola above the x axis? b)  x 2  3 x  4 y x 2  3x  4  0  x  4  x  1  0 –4 1 x
  • 87. (iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 x  3 or x  2 –3 –2 x Q: for what values of x is the parabola above the x axis? b)  x 2  3 x  4 y x 2  3x  4  0  x  4  x  1  0 –4 1 x
  • 88. (iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 x  3 or x  2 –3 –2 x Q: for what values of x is the parabola above the x axis? b)  x 2  3 x  4 y x 2  3x  4  0  x  4  x  1  0 –4 1 x Q: for what values of x is the parabola below the x axis?
  • 89. (iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 x  3 or x  2 –3 –2 x Q: for what values of x is the parabola above the x axis? b)  x 2  3 x  4 y x 2  3x  4  0  x  4  x  1  0 –4 1 x Q: for what values of x is the parabola below the x axis?
  • 90. (iii) Solve; a) x 2  5 x  6  0 y  x  2  x  3  0 x  3 or x  2 –3 –2 x Q: for what values of x is the parabola above the x axis? b)  x 2  3 x  4 y x 2  3x  4  0  x  4  x  1  0 4  x  1 –4 1 x Q: for what values of x is the parabola below the x axis?
  • 91. Exercise 8A; 1adf, 2adf, 3bd, 4bd, 5c, 6ade, 7d, 9ace, 12c, 13b, 14a