How Do You Determine the Domain and Range for the Reflection of a Function?

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The discussion focuses on determining the domain and range of the reflection of the function f(x) = sqrt(x + 2) across the y-axis. The user graphed the reflection correctly but misunderstood the domain, initially stating it as x < -2, while the correct domain for the reflection is x > -2. There is confusion regarding whether the domain and range should be stated for the original function or its reflection. The graph provided shows the vertex at (-2, 0), but the reflection changes the x-values to negative, affecting the domain. Clarification is needed on whether the book's instructions pertain to the original function or its reflection.
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Homework Statement




Graph f(x) sketch the specified reflection image. State domain/range

a) the reflection of f(x) = [sqrt]x+2 on the y-axis (horizontal shift of 2 to the left)

Homework Equations



y=[sqrt]x

The Attempt at a Solution



I graphed it properly , made a table of values and changed the x values into negetive values since its a reflection on the y axis.

The graph starts at -2 on the x-axis and goes out to the left. -2,0 being the vertex

It also says state the domain and range. The graph starts at -3 and goes out to the left ( values becoming more and more negetive) I wrote down x < -2 for the domain, but somehow that's wrong. The book says x> -2 .

http://i51.tinypic.com/xaovom.jpg

Graph provided, i have messy writing , i know but look at the graph and instruct meo n what to do. I don't get how its Greater than -2, that's not possible..
 
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In your attachment you write that the reflection of y = sqrt(x + 2) is y = sqrt(-x + 2). But you graphed y = sqrt(-x - 2).

Also, is the book asking for the domain/range for the original function, y = sqrt(x + 2), or its reflection? Because, when you said that according to the book the domain is x > -2, that's the domain of the original function, not the reflection. So either you misread the problem or the book is wrong.
 

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