Equation of Circles

Equation of Circles

Let’s review what we already know about circles.
Definition: A circle is a locus (set) of points in a plane equidistant from a fixed point.

Equation of Circles 1

Now, if we “multiply out” the above example (x-2)2 + (y+5)= 9 we will get:

(x-2)2 + (y+5)= 9
(x2-4x+4) +( y2+10y+25) = 9
x2-4x+4+ y2+10y+25 = 9
x2+ y2-4x+10y+20= 0
x2+y2+Cx+Dy+E = 0

When multiplied out, we obtain the “general form” of the equation of a circle. Notice that in this form we can clearly see that the equation of a circle has both x2 and y2 terms and these terms have the same coefficient (usually 1).

When the equation of a circle appears in “general form”, it is often beneficial to convert the equation to “center-radius” form to easily read the center coordinates and the radius for graphing.
Equation of Circles 2

Examples:

1. Convert x2+ y2-4x-6y+8= 0  into center-radius form.

This conversion requires use of the technique of completing the square.

We will be creating two perfect square trinomials within the equation.

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  • Start by grouping the x related terms together and the y related terms together. Move any numerical constants (plain numbers) to the other side.
  • Get ready to insert the needed values for creating the perfect square trinomials. Remember to balance both sides of the equation.
  • Find each missing value by taking half of the “middle term” and squaring. This value will always be positive as a result of the squaring process.
  • Rewrite in factored form.
    You can now read that the center of the circle is at (2, 3) and the radius is /5

2. How do the coordinates of the center of a circle relate to C and D when the equation of the circle is in the general form x2+ y2+Cx+Dy+E = 0.

Let’s make some observations. Re-examine our previous equations in general form and center-radius form. Do you see a relationship between the center coordinates and C and D?

Equation of Circles 4

Equation of Circles 5

3. Write the equation of a circle whose diameter has endpoints (4, -1) and (-6, 7).

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4. Write the equation for the circle shown below if it is shifted 3 units to the right and 4 units up.

A shift of 3 units to the right and 4 units up places the center at the point (3, 4). The radius of the circle can be seen from the graph to be 5.
Equation:(x-3)2 + (y-4)= 25

5. Convert 2x2+ 2y2+6x-8y+12= 0 into center-radius form.

Whoa!!! This equation looks different. Are we sure this is a circle???
In this equation, both the x and y terms appear in squared form and their coefficients (the numbers in front of them) are the same. Yes, we have a circle here! We will, however, have to deal with the coefficients of 2 before we can complete the square.

Equation of Circles 7