SOLUTION: 26. State the various transformations applied to the base function to obtain a graph of the functiong(x) = |x + 1| − 2. 1..Horizontal shift of 1 unit to the left and a

Algebra.Com
Question 1086374: 26.
State the various transformations applied to the base function to obtain a graph of the functiong(x) = |x + 1| − 2.

1..Horizontal shift of 1 unit to the left and a vertical shift downward of 2 units.

2. Horizontal shift of 1 unit to the right and a vertical shift upward of 2 units.

3. Horizontal shift of 1 unit to the right and a vertical shift downward of 2 units.

4. Horizontal shift of 1 unit to the left and a vertical shift upward of 2 units.




Answer by stanbon(75887)   (Show Source): You can put this solution on YOUR website!
State the various transformations applied to the base function to obtain a graph of the function g(x) = |x + 1| − 2.
Answer::
1. Horizontal shift of 1 unit to the left and a vertical shift downward of 2 units.
-----
Cheers,
Stan H.
--------



RELATED QUESTIONS

25. State the various transformations applied to the base function ƒ(x) = |x| to obtain... (answered by stanbon,AnlytcPhil)
13. State the various transformations applied to the base function ƒ(x) = x2 to obtain a (answered by Boreal)
Describe the transformations applied to the graph of y=x^2 to obtain the function f(x) =... (answered by Boreal)
Can someone assist me??please. i)state the transformations applied to the graph of... (answered by stanbon)
Write a function rule g(x) for the given transformations applied to the graph of f(x)=x^2 (answered by josgarithmetic)
Describe the transformations that must be applied to the graph of y= x^2 to obtain the... (answered by Boreal,greenestamps)
Hi can you please help me with these sinusoidal functions questions? Please include all... (answered by ikleyn,math_tutor2020)
Find the function that is finally graphed the following transformations are applied to... (answered by Theo)
Write in order the series of transformations that are applied to this parent. h(x)=1/2 (answered by stanbon)