Vertex form of parabola; why x-h, not x+h?

AI Thread Summary
The vertex form of a parabola is expressed as y = a(x-h)² + k, where the vertex is located at (h, k). The discussion centers around the significance of the minus sign in the equation, questioning whether it could be replaced with a plus sign without losing meaning. It is clarified that using y = a(x+h)² + k would change the vertex to (-h, k), which alters the interpretation of the graph. The minus sign is essential for maintaining the standard form, making it easier to identify the vertex's coordinates. Ultimately, the standard form is preferred for its clarity in conveying important features of the parabola.
Cicnar
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Hello.

The vertex form is y= a(x-h)^2+k, in general. Could it also be defined as y= a(x+h)^2+k?
I am wondering about that minus sign. I see no particular use of it. Is it there because of tradition
or am i missing something?
 
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The vertex of y= a(x-h)^2+k is (h,k)
The vertex of y= a(x+h)^2+k is (-h,k)

We need a minus somewhere.
 
Cicnar said:
Hello.

The vertex form is y= a(x-h)^2+k, in general. Could it also be defined as y= a(x+h)^2+k?
I am wondering about that minus sign. I see no particular use of it. Is it there because of tradition
or am i missing something?

When x=h, you have y=0+k=k
The vertex is h,k.
 
Thanks for your replies. But i think i was misunderstood. I will try to explain better this time.

For example, a general equation of a line is y=ax+b. What is special about addition operation? Is just a matter of convention? Could i say "a general equation of a line is given by y=ax-b"? I see nothing wrong with it.

Now, same logic for y= a(x-h)^2+k. This x-h part can be (or cant?) written as addition (x+h), if we choose to set our general equation in such form? Its a minor issue, but i was curios.
 
The different forms of equations make certain things easier to know about them.
y=mx+b, and y=ax^2+bx+c are the GENERAL form of a line, and of a parabola. They are easy to use for finding y values, and more convenient if using matrices. Ax+By=C, and y=a(x-h)^2+k are the STANDARD form for a line and for a parabola. The number-line intercepts are easy to identify for the line, and the vertex is easy to identify for the parabola, from the standard forms.
 
Oh, i see now! We can read more easily the desired information in this particular form (in this example, that is the coordinates of vertex). Makes perfect sense why this is the standard form now.

Thank you very much, symbolipoint.
 

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