The graph of f(x) is shown. Graph f(x-3)+1 on the same grid.
1 point
1
Question 2
2.
The graph of g(x) is shown. Graph g(x+2) -3 on the same grid.
1 point
1
Question 3
3.
The maximum point on the graph of the equation y = f(x) is (2,−3). What is the maximum point on the graph of the equation y = f(x + 4)?
1 point
1
Question 4
4.
The minimum point on the graph of the equation y = f(x) is (2,4). What is the minimum point on the graph of the equation y = f(x )-7?
1 point
1
Question 5
5.
The minimum point on the graph of the equation y = f(x) is (2,4). What is the minimum point on the graph of the equation y = f(x-1)+3?
1 point
1
Question 6
6.
Which transformation of the function y=m(x), translates the graph 5 units right and 3 units down?
1 point
1
Question 7
7.
Blake was asked to transform the graph b(x) shown below.
The graph of b(x) is transformed using the equation h(x) = b(x -1) -2. Describe how the graph of b(x) changed to form the graph of h(x).
(use words right, left , up, down and tell by how many units)
1 point
1
Question 8
8.
DESCRIBE how the graph of f(x) (black graph), was transformed to achieve the graph of g(x) (red graph).
1 point
1
Question 9
9.
Choose which function notation shows how f(x) was transformed to get the graph of g(x).
1 point
1
Question 10
10.
Using the graph below, what is the equation of the transformed function,g(x) (purple), if the original graph was f(x) (black graph). Type your answer using function notation and no spaces.