Is there an equation for a parabola which has a vertex at (0,1) and goes through the point (1,3)

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- Jun 9th 2006, 08:56 PMnath_quamParabola Equation
Is there an equation for a parabola which has a vertex at (0,1) and goes through the point (1,3)

- Jun 9th 2006, 09:20 PMearbothQuote:

Originally Posted by**nath_quam**

if the vertex is then you can use the vertex-form of the parabola:

Plug in the coordinates of the vertex:

. Now is left only the coefficient a. Plug in the coordinates of the point (I've named it A):

and you'll get a = 2.

So the parabola is:

I've attached a diagram.

Greetings

EB - Jun 9th 2006, 09:31 PMRich B.
nath_quamIs there an equation for a parabola which has a vertex at (0,1) and goes through the point (1,3)

Hi Nath_Quam: In short, yes, there are infinitely many such parabolas that meet the conditions given in your narrative. To begin, we write your parabola in functional notation, i.e., f(x) = ax^2 + bx + c. [Note: There is nothing compelling us to use f(x). We could just as legitimately have written g(x)=..., h(x)=..., or, simply y= ax^2 + bx + c. All are*quadratic equations*and, hence, have parabolic graphical representations].

Now, recall that any parabola has x-value: -b/2a. According to your given data, the vertex is at (1,3). Hence 1 =-b/2a, and we immediately observe b=0 in function, f(x) = ax^2 + bx + c. So, f(x) = ax^2+c. - Jun 9th 2006, 09:37 PMearbothQuote:

Originally Posted by**Rich B.**

I understood that the vertex is V(0,1). Did I miss something?

Greetings

EB - Jun 10th 2006, 04:43 AMSoroban
Hello, nath_quam!

Quote:

Is there an equation for a parabola which has a vertex at (0,1) and goes through the point (1,3)

The vertex of a parabola is at:

Since this parabola has its vertex at , we see that

. . The equation (so far) is: .

Since is on the parabola: .

. . The equation is: .

Since is on the parabola: .

. . Therefore, the equation is: . - Jun 10th 2006, 06:02 AMRich B.response to earbothQuote:

Originally Posted by**earboth**

Late last night, I began the process of addressing the given inquiry. After completing a few lines, however, circumstances arose such that I was unable to finish that which I had begun. I thought I had clicked the "cancel" icon but...

This morning, I awoke to read two well articulated, mathematically complete responses to the originator's query. Any contributory words I may have to offer now, would be an inefficient streatch of my stiff, early morning, pre-caffine enhanced cerebrum.

And that's that. Some few hours from now, I shall delete the initial post, as well as this clarification of the same.

Enjoy your day.

Regards,

Rich B.