the radical axis
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The Radical Axis
MA 341 – Topics in GeometryLecture 24
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What is the Radical Axis?Is it √x ? √y?
Is it one of the Axis powers gone rogue?
No, it is the following:
The radical axis of two circles is the locus of points at which tangents drawn to both circles have the same length.
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What is the Radical Axis?
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What is the Radical Axis?
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What is the Radical Axis?P
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What is the Radical Axis?P
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What is the Radical Axis?P
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What is the Radical Axis?P
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What is the Radical Axis?P
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What is the Radical Axis?P
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What is the Radical Axis?P
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What is the Radical Axis?P
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What is the Radical Axis?P
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What is the Radical Axis?P
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What is the Radical Axis?P
B
A
Is AP = BP ?
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PreviouslyWe had looked at three circles that were externally tangent to one another. We had shown thatthe three tangent lines wereconcurrent.(See Incircle)
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Is there something more?
Consider the following figures:
External tangency is not necessary! Tangency is not necessary!
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Circle-Line Concurrency
Theorem: Given 3 circles with noncollinearcenters and with every two have a point in common. For each pair of circles draw either common secant or common tangent, then these three constructed lines are concurrent.
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Power of a pointLet P be a point and c1 be a circle of radius r centered at O.
The power of P with respect to c1 is defined to be:
Pwr(P) = d2 – r2,where d = OP.
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Power of a point
O P
r
d
Pwr(P)=d2 – r2
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Power of a pointPwr(P) = 25-4=21
Pwr(Q) = 4-4=0
Pwr(R) = 1-4=-3
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Power of a pointLemma: Let P be a point and c1 be a circle of radius r centered at O.
1. Pwr(P) > 0 iff P lies outside c1;2. Pwr(P) < 0 iff P lies inside c1;3. Pwr(P) = 0 iff P lies on c1.
Proof:
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Background on Power
Theorem [1.35]: Given a circle and a point P not on the circle, choose an arbitrary line through P meeting the circle at X and Y. The quantity PX·PY depends only on P and is independent of the choice of line through P.
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Background on Power
Let a second line through P intersect circle at U and V.Need to show PU PV = PX PY.
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Background on Power
Draw UX and VY.U = Y (Why?)XPU = VPYΔXPU ~ ΔVPYPX/PV = PU/PYPX PY = PU PV
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The Power LemmaLemma: Fix a circle and a point P. Let p be the power of P with respect to the circle.a) If P lies outside the circle and a line
through P cuts the circle at X and Y, then p = PX·PY.
b) If P is inside the circle on chord XY, then p = -PX·PY.
c) If P lies on a tangent to the circle at point T, then p = (PT)2.
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Proof:
1. PX·PY does not depend on the choice of line. Let the line go through O, the center of the circle.XY = diameter = 2rPO = dPX = PO – XO = d – r PY = PO + OY = d + rPX·PY = (d – r)(d+r) = d2 – r2
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Proof:
2. PX·PY does not depend on the choice of line. Let the line go through O, the center of the circle.XY = diameter = 2rPO = dPX = PO – XO = r – d PY = PO + OY = r + dPX·PY = (r – d)(r + d) = r2 – d2 = -p 26-Oct-2011 MA 341 28
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Proof:
3.ΔPTO is a right triangle.(PT)2 = d2 – r2 = p
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Locus of Points
Lemma: Fix 2 circles centered at A and B, A=B. There exist points whose powers with respect to the two circles are equal. The locus of all points is a line perpendicular to AB.
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Locust of Points
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ProofSuppose that A and B lie on the x-axis.(Is this a reasonable assumption? Why?)Let A=(a,0) and B=(b,0), a = b.Let P=(x,y), then(PA)2=(x-a)2 + y2 and (PB)2=(x-b)2 + y2
Let r = radius of circle at A, s=radius at BPowers of P are equal IFF(x-a)2 + y2 – r2 = (x-b)2 + y2 - s2
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Proof(x-a)2 + y2 – r2 = (x-b)2 + y2 - s2
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(x-a)2 – r2 = (x-b)2 - s2
x2 – 2ax + a2 – r2 = x2 – 2bx + b2 - s2
2(a-b)x = r2 – s2 + b2 – a2
2 2 2 2r s b ax2(a b)
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Radical AxisGiven two circles with different centers their radical axis is the line consisting of all points that have equal powers with respect to the two circles.
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Radical AxisCorollary:a) If two circles intersect at two points A
and B, then their radical axis is their common secant AB.
b) If two circles are tangent at T, their radical axis is their common tangent line.
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Proof of (a)A point common to two circles has power 0 with respect to BOTH circles.Pwr(A)=0=Pwr(B), which is radical axis. Radical axis is line containing A and B.
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Proof of (b)T lies on both circles, so Pwr1(T)=Pwr2(T)=0 and T lies on the radical axis. If P lies on radical axis of one circle and lies on one circle, then Pwr(P)=0 so it also lies on other circle since it is on radical axis. Thus, P lies on both circles, but T is the only point that lies on both circles.
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Radical AxisCorollary:Given three circles with noncollinearcenters, the three radical axes of the circles taken in pairs are distinct concurrent lines.
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ProofRadical axis is perpendicular to the line between the centers of the circles. Centers non-collinear implies radical axes distinct and nonparallel. Each pair intersects!!Let P be a point and let p1, p2, and p3 be the powers of P with respect to the 3 circles.
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ProofOn one radical axis we have p1 = p2
On another we have, and p2 = p3
At P the radical axes meet and we havep1 = p2 = p3
Thus, p1 = p3 and P lies on the third radical axis.
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