Equation of a Parabola: Can Any Point on the Graph Satisfy the General Equation?

kevinshen18 · Sep 11, 2014

The general equation of a parabola is:
(y - y1) = A(x - x1)^2

A is the scaling factor
y1 is the y coordinate of a vertex/point on the parabola
x1 is the x coordinate of a vertex/point on the parabola

My two questions are:
1. Can (x,y) be any point on the graph ?
2. If so, then if x - x1 = 0 and y- y1 = 0 (if the difference between the points are 0) then does that mean the point (x,y) is on the parabola?

HallsofIvy · Sep 11, 2014

kevinshen18 said:

The general equation of a parabola is:
(y - y1) = A(x - x1)^2

A is the scaling factor
y1 is the y coordinate of a vertex/point on the parabola
x1 is the x coordinate of a vertex/point on the parabola

My two questions are:
1. Can (x,y) be any point on the graph ?

Yes, (x, y) refers to any point on the parabola.

2. If so, then if x - x1 = 0 and y- y1 = 0 (if the difference between the points are 0) then does that mean the point (x,y) is on the parabola?

Your question is a little confusing (or confused). Again, (x, y) can refer to any point on the parabola. "if x- x1= 0 and y- y1= 0" then x= x1 and y= y1 is a specific point on the parabola. In fact, it is the vertex of the parabola- the lowest point if A is positive, highest point if A is negative.

SteamKing · Sep 11, 2014

kevinshen18 said:

The general equation of a parabola is:
(y - y1) = A(x - x1)^2

A is the scaling factor
y1 is the y coordinate of a vertex/point on the parabola
x1 is the x coordinate of a vertex/point on the parabola

My two questions are:
1. Can (x,y) be any point on the graph ?

That's what the equations of these curves are for.

Instead of having to compile a list of the infinite number of point coordinates which fall on the curve, a simple equation can be used to generate one point or many points, all of which will fall on the curve

2. If so, then if x - x1 = 0 and y- y1 = 0 (if the difference between the points are 0) then does that mean the point (x,y) is on the parabola?

Any point (x,y) which satisfies the equation of the parabola is a point on that parabola.

Now, why all of this confusion?

Integral · Sep 11, 2014

I would say that (x,y) is some point in the x,y plane, may on the parabola maybe not.

Points on a parabola are given by: (x, (x-x₁)²+ y₁))

HallsofIvy · Sep 12, 2014

In the original post the reference was to (x, y) satisfying the equation (y- y_1)= A(x- x_1)^2.

Those (x, y) are points on the parabola, not arbitrary points in the plane.

kevinshen18 · Sep 12, 2014

Thanks guys. So if (x,y) = (x1,y1), then this satisfies the parabola equation and (x1,y1) is the vertex?

Equation of a Parabola: Can Any Point on the Graph Satisfy the General Equation?

Thread 'Non-orthogonal bases'

Thread 'Fixing Things Which Can Go Wrong With Complex Numbers'

Thread 'What Exactly is Dirac’s Delta Function? - Insight'

Similar threads

Hot Threads

Insights Fermat's Last Theorem

B What could prove this wrong? I'm having a dispute with friends

B About a definition: What is the number of terms of a polynomial P(x)?

B How Many Straight Lines to Connect an N by M Array of Points in a Closed Loop?

B Geometry Puzzle with 20 points in a cross pattern

Recent Insights

Insights Why Entangled Photon-Polarization Qubits Violate Bell’s Inequality

Insights Quantum Entanglement is a Kinematic Fact, not a Dynamical Effect

Insights What Exactly is Dirac’s Delta Function? - Insight

Insights Relativator (Circular Slide-Rule): Simulated with Desmos - Insight

Insights Fixing Things Which Can Go Wrong With Complex Numbers

Insights Fermat's Last Theorem