Is There Only One Intersection Point on the y=2^2 Curve for the Tangent Line at P(x0, x0^2)?

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The discussion centers on proving that a tangent line at a specific point P(x0, x0^2) on the curve y=x^2 intersects the curve only at that point. The argument highlights that a tangent line can intersect a parabola at most twice, with tangents counted as double roots. It is established that since the slope of the tangent is unique and all tangents pass through the tangency point, they coincide at that point. Additionally, the symmetry of the parabola is acknowledged, but it does not affect the uniqueness of the tangent intersection. The conclusion reinforces that the only intersection point for the tangent line at P is indeed P itself.
danne89
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Please help me prove that it doesn't exist any other intersect point than P(x0, x0^2) on the y=2^2 curve, for the tangent line in the very same point.

My work:
y=x^2
l(x)=f¨(x0)(x-x0)+x0^2
= 2x0(x-x0)+x0^2
= 2x0x-2x0^2 + x0^2
= 2x0x - x0^2
 
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You mean to prove the uniqueness of the tangent to a parabola in one certain (albeit arbitrary) point...?That's trivial.The slope is the same (unique) and they all pass through the same point (namely,the tangence point),therefore,all tangents coincide.

Unless,you meant something else...

Daniel.
 
Hey, isn't the slope the same in two points (symmetry over the y-axis.) ?

Edit: Ohh, my no. It's mirrored...
 
Last edited:
Yes,it picks up the minus (due to the cosine,which is negative,once you enter (\pi/2,\pi))...

Daniel.
 
in general a line can only intersect a parabola twice at most and tangent intersections count as 2. done.

i.e. when you substiotute the parametrization for the loine into the poarabola equation you get a quadratic which can have only 2 roots, and tangents are exactly those points where the root is a double root.
 

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