Show that the centre of any circle which passes through (-1, 1) and (1. 5) lies on the line x+2y-6=0 ?

1 Answer
May 23, 2017

The Cartesian equation for a circle is:

#(x-h)^2+(y-k)^2=r^2" [1]"#

where #(x,y)# is any point on the circle, #(h,k)# is the center-point and #r# is the radius.

Substitute the points #(-1,1)# and #(1,5)# into equation [1]:

#(-1-h)^2+(1-k)^2=r^2" [2]"#
#(1-h)^2+(5-k)^2=r^2" [3]"#

Expand the squares of both equations:

#1+2h+h^2+1-2k+k^2=r^2" [4]"#
#1-2h+h^2+25-10k+k^2=r^2" [5]"#

Subtract equation [4] from equation [5]:

#1-2h+h^2+25-10k+k^2=r^2" [5]"#
#ul(1+2h+h^2+1-2k+k^2=r^2)" [4]"#
#0-4h+0h^2+24-8k+0k^2=0r^2#

Combine like terms:

#-4h-8k+24=0#

Divide both sides of the equation by -4:

#h+2k-6=0#

This is the line #x+2y-6=0# evaluated at the point #(h,k)#

Q.E.D.