Facebook Pixel
Mathos
Geometri

Likavståndspunkt för A(5,1), B(-3,-7), C(7,-1)

Lär dig hur man hittar punkten som är lika långt från A(5,1), B(-3,-7) och C(7,-1) med kvadrerade avstånd och ett linjärt ekvationssystem.

Bemästra Matematik med AI

Fast i ett problem? Mathos AI tillhandahåller steg-för-steg-lösningar, omedelbara visualiseringar och personlig handledning för vilket matematiskt koncept som helst.


Inlärningsresurser

Detta innehåll är en del av Mathos AI:s öppna inlärningsbibliotek. Designat för att hjälpa studenter visualisera och förstå komplexa matematiska problem.

Betrodd & Erkänd


Stödd av

Y Combinator

Presenterad på

Forbes

Problem

Find the point that is equidistant from A(5,1)A(5,1), B(3,7)B(-3,-7), and C(7,1)C(7,-1).

Step 1: Write Equal-Distance Equations

Let the unknown point be P(x,y)P(x,y). To avoid square roots, compare squared distances.

Set the squared distance from PP to AA equal to the squared distance from PP to BB:

(x5)2+(y1)2=(x+3)2+(y+7)2(x-5)^2+(y-1)^2=(x+3)^2+(y+7)^2

This simplifies to:

x+y+2=0x+y+2=0

Now set the squared distance from PP to AA equal to the squared distance from PP to CC:

(x5)2+(y1)2=(x7)2+(y+1)2(x-5)^2+(y-1)^2=(x-7)^2+(y+1)^2

This simplifies to:

xy6=0x-y-6=0

Step 2: Solve the Line System

The two equations are:

x+y=2x+y=-2

and

xy=6x-y=6

Add the equations to eliminate yy:

2x=42x=4

So:

x=2x=2

Substitute back into x+y=2x+y=-2:

2+y=22+y=-2

Therefore:

y=4y=-4

So the candidate point is:

(2,4)(2,-4)

Step 3: Check the Equal Distances

Check the squared distance from (2,4)(2,-4) to each point.

To A(5,1)A(5,1):

(25)2+(41)2=(3)2+(5)2=9+25=34(2-5)^2+(-4-1)^2=(-3)^2+(-5)^2=9+25=34

To B(3,7)B(-3,-7):

(2+3)2+(4+7)2=52+32=25+9=34(2+3)^2+(-4+7)^2=5^2+3^2=25+9=34

To C(7,1)C(7,-1):

(27)2+(4+1)2=(5)2+(3)2=25+9=34(2-7)^2+(-4+1)^2=(-5)^2+(-3)^2=25+9=34

Each squared distance is 3434, so the point equidistant from AA, BB, and CC is:

(2,4)\boxed{(2,-4)}

Begrepp

Points, Lines, Segments, and Planes

Fundamental geometric objects and their measurements. Includes the segment addition postulate, the midpoint formula, and the distance formula on the coordinate plane.

Coordinate Geometry of Lines

Using slopes in the coordinate plane to determine whether lines are parallel (equal slopes) or perpendicular (slopes are negative reciprocals). Includes finding the equation of a line through a point with a given slope condition, and the distance from a point to a line.

Fler videor

© 2026 Mathos. Alla rättigheter förbehållna