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MPC40S Date: ____________________
Review β CHAPTER 1 Questions 1.1 β Horizontal and Vertical Translations
1. The following points lie on the graph of π(π₯): (β2, 5), (0, β1) and (3, 4). Determine the coordinate of the image point that would be included in each of the following graphs. a) π(π₯) = π(π₯ + 1) b) π(π₯) = π(π₯) β 3 c) π(π₯) = π(π₯ β 2) + 5
2. Given the function π(π₯) = βπ₯ + 2, sketch the following graphs: a) π¦ = π(π₯) + 2
b) π¦ = π(π₯ + 2)
c) π¦ = π(π₯ β 1) β 3
MPC40S Date: ____________________
3. Using the following graph of π(π₯), sketch the graphs of the following function: a) π(π₯) = π(π₯ β 1)
b) β(π₯) = π(π₯) + 2
c) π(π₯) = π(π₯ + 2) + 2
d) π(π₯) = π(π₯ β 3) β 1
4. Given the function π(π₯) = (π₯ β 1) + 3, write the equation for each of the following functions: a) π(π₯) = π(π₯ + 4) β 7 b) β(π₯) = π(π₯ β 6) + 5 c) π(π₯) = π(π₯ + 1) β 3
MPC40S Date: ____________________
5. Explain, in words, the type of translations that would be applied to the original graph of π(π₯) if the graph π¦ = π(π₯ β 4) + 3 is sketched. 6. Given the graph of π¦ = π(π₯ + 2) + 1 below, sketch the graph of π¦ = π(π₯).
MPC40S Date: ____________________
1.2 β Reflections and Stretches/Compressions 1. Sketch the function π(π₯) = (π₯ + 1) β 1 and use this graph to sketch the functions below. a) π¦ = 3π(π₯)
b) π¦ = π(2π₯)
c) π¦ = βπ(π₯)
d) π¦ = π(βπ₯)
MPC40S Date: ____________________
2. The domain of the function π(π₯) is [β2, 6]. The range of the same function is [0, 4]. Use this information to determine the domain and range of the following graphs. a) π¦ = π(π₯) b) π¦ = π c) π¦ = π(βπ₯) d) π¦ = βπ(4π₯)
e) Explain, in words, why in parts a), b) and c), only the domain OR range changes but not both at the same time. 3. Using the graphs of π(π₯) below, sketch the following graphs:
a) π¦ = π π₯
b) π¦ = π(2π₯)
c) π¦ = βπ(π₯)
d) π¦ = π(βπ₯)
MPC40S Date: ____________________
4. Determine the transformation that must be applied to the graph of π(π₯) to obtain the graph of π(π₯). a) π(π₯) = ______________________________
b) π(π₯) = ______________________________
c) π(π₯) = ______________________________
d) in part b), the equation of π(π₯) is π(π₯) = 2(π₯ β 1) β 2. Determine the equation of π(π₯).
MPC40S Date: ____________________
1.3 β Combining Transformations 1. Given π(π₯) = |π₯|, sketch the following graphs: a) π¦ = 2π(2π₯)
b) π¦ = βπ(π₯ + 1) + 2
c) π¦ = 3π(β2π₯ + 4) β 1
d) π¦ = π (π₯ β 1) + 2
MPC40S Date: ____________________
2. Suppose that the graph of π(π₯) is given. Explain, in words, how to obtain the graphs of the following functions. a) π¦ = 4π(π₯ β 2) + 3
b) π¦ = βπ(2π₯) β 1
c) π¦ = β π (π₯ β 6)
d) π¦ = π(β2π₯ + 4) + 5
3. The point (10, β16) is on the graph of π¦ = π(π₯). Determine the coordinates of the new point after performing the following transformations. a) π¦ = π(π₯ + 3) + 1 b) π¦ = 2π(βπ₯ + 1) + 5 c) = β π(π₯ β 4) + 6
d) π¦ = π π₯ β 6 β 9
e) π¦ = β3π(2π₯ + 8) β 1
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MPC40S Date: ____________________
4. The following graph represents the function π¦ = π(π₯). Sketch the graph of the function below. a) π¦ = 2π(π₯ β 1) β 1
b) π¦ = π(β2π₯ + 4) + 3
c) π¦ = β3π(π₯ + 1) + 2
d) π¦ = π (π₯ + 1)
5. Given the graph of π¦ = π(βπ₯ + 1) β 1, sketch the graph of π¦ = π(π₯).
MPC40S Date: ____________________
1.4 β Inverse of a Relation 1. The following points are found on the graph of π¦ = π(π₯): (β3, 7), (0, 5), (β4, β4) and (3, 9). a) Determine the points that must be on the graph of π¦ = π (π₯). b) Using the line π¦ = π₯, explain why the point (β4, β4) is invariant. 2. Sketch the inverse of the following relations. a)
b)
c)
d) Using the graphs, which one of the inverse relations is not a function? Explain how this same information can be determined without graphing the inverse.
MPC40S Date: ____________________
3. Determine the equation of the inverse for each equation given below. a) π(π₯) = 3π₯ b) π(π₯) = β2π₯ + 4
c) π(π₯) =
d) π(π₯) = β 2
e) π(π₯) = π₯ β 9
f) π(π₯) = 3(π₯ β 1) + 2
g) π(π₯) = 3 β π₯
h) Restrict the domain of the original functions in e), f), and g) so that each of the inverse relations are functions.