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© The Visual Classroom 3.7 Transformation of Functions Given y = f(x), we will investigate the function y = af [k(x – p)] + q for different values of a,

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Presentation on theme: "© The Visual Classroom 3.7 Transformation of Functions Given y = f(x), we will investigate the function y = af [k(x – p)] + q for different values of a,"— Presentation transcript:

1 © The Visual Classroom 3.7 Transformation of Functions Given y = f(x), we will investigate the function y = af [k(x – p)] + q for different values of a, k, p and q.

2 © The Visual Classroom 1) Investigating y = f(x – p) (4, 2) (0, 2) (7, 2) (left 4 units) (right 3 units)

3 © The Visual Classroom 2) Investigating y = f(x) + q (4, 2) (4, 5) (4, –3) (up 3 units) (down 5 units)

4 © The Visual Classroom 3) Investigating y = af(x) (4, 2) (4, 4) (4, 1) (vertical stretch by 2) (vertical compression by one-half)

5 © The Visual Classroom 3) Investigating y = af(x) (4, 2) (4, –2) (4, – 4) (reflected in x-axis) (vertical stretch and reflected in x-axis)

6 © The Visual Classroom 4) Investigating y = af(x – p) + q (4, 2) (–1, 1) (–1, 2) (–1, 4) left 5 × 2 down 3

7 © The Visual Classroom 5) Investigating y = f(kx) (4, 2) (2, 2) horizontal compression by a factor of

8 © The Visual Classroom y = af [k(x – p)] + q Inverse transformations - Shift right p units - Horizontal stretch/compression x y = af [k(x – p)] + q vertical transformations - Vertical stretch by a factor of a - Vertical shift by a factor of q

9 © The Visual Classroom If the graph of f is given as y = x 3, describe the transformations that you would apply to obtain the following: a) y = (x + 1) 3 b) y = x 3 – 2 c) y = – 2x 3 d) y = (– 3x) 3 e) y = 2(x – 5) 3 Horizontal shift (– 1) Vertical shift ( – 2) vertical stretch ×2 and reflection in the x-axis horizontal comp by a factor of 1/3 and a reflection in the y-axis, right 5 and a vertical stretch by a factor of 2

10 © The Visual Classroom Example: Given the ordered pair (3, 5) belongs to g. List the ordered pairs that correspond to: a) y = 2g(x) b) y = g(x) + 4 c) y = g(x – 3) d) y = – g(2x) (3, 10) (3, 9) (6, 5) (1.5, – 5) Vertical stretch × 2 Up 4 Right 3 Horizontal comp by a factor of 2 and a Reflection in the x-axis

11 © The Visual Classroom If the graph of f is given as, describe the transformations that you would apply to obtain the following: right 3 up 4 horizontal compression by a factor of 2 reflection in the x-axis

12 © The Visual Classroom Describe the transformations that you would apply to f(x) to obtain the following: a) f(2x + 6) f [2(x + 3)] b) f(– 3x + 12) + 5 f[–3(x – 4)] + 5 Left 3 Horizontal compression by a factor of 2. Horizontal compression by a factor of 3. Horizontal Shift (+4) Reflection in y-axis Vertical Shift (+ 5)

13 © The Visual Classroom Describe the transformation on f (x): f(x)f(x) x3x3 2x32x3 x4x4 (x – 3) 4 x2x2 (x + 1) 2 + 4 Vertical stretch Left 2, reflection in the x-axis Right 3 Horizontal comp, refl (x-axis) H. Shift (– 1) V. Shift (+4) Horizontal stretch (x2), vertical compression (x2).

14 © The Visual Classroom The graph of y = f(x) is given Sketch the graph of y = –f (2x+6) + 1 Input output diagram + (-3)× –1 f x(0.5) x +1 y ÷ 2 reflect in x-axis up 1 y = –f [2(x+3)] + 1 H.Shift left 3

15 © The Visual Classroom y = –f [2(x+ 3)] + 1 x(0.5) x left 3 ÷ 2 reflect in x-axis up 1 P(–3, –2) P Q R S (–1.5, –2) (–4.5, –2) (-4.5, 2) P´(–4.5, 3) left 3 ÷ 2 reflect in x-axis up 1 P´ + (-3)× –1 f +1 y

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