Answer:
F' would be (2, 2) if F was reflected over the line y=-x
Answer:
Step-by-step explanation:
Answer:
the answer is D. 8x - 2x²
Step-by-step explanation:
Option C:
The value of f(–6) is 6.
Solution:
Let f(x) = y.
The value of y is depend on the value of x.
Here x is independent variable and y is the dependent variable.
To find the value of f(–6):
f(–6) means, we should find the value of our function when x equals –6.
In the given image, see the line on the graph.
The value of x is –6, it is on the left side of the graph.
The value of y corresponding to x = –6 is 6.
y = 6 when x = –6.
So, f(–6) is 6.
Hence the value of f(–6) is 6.
Option C is the correct answer.
Answer:
Dilate M'N'L' from point N by a scale factor of segment NP over segment NL
Step-by-step explanation:
Multiplying the length of N'L' by the factor NP/NL will give it the length of NP, making the dilated version of ΔM'N'L' congruent to ΔONP. This is apparently your goal.
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Reflection over line k doesn't seem to do anything useful, and the other offered dilation is by the wrong factor. You want to ...
dilate M'N'L' from point N by a scale factor of segment NP over segment NL.
