Equation of Circle/Parametric

Theorem
The equation of a circle with radius $R$ and center $\left({a, b}\right)$ expressed as a parametric equation
 * $x = a + R \cos t, \ y = b + R \sin t$

Proof
Let the point $\tuple {x, y}$ satisfy the equations:
 * $x = a + R \cos t$
 * $y = b + R \sin t$

By the Distance Formula, the distance between $\tuple {x, y}$ and $\tuple {a, b}$ is:
 * $\sqrt {\paren {\paren {a + R \cos t} - a}^2 + \paren {\paren {b + R \sin t} - b}^2}$

This simplifies to:
 * $\sqrt {R^2 \cos^2 t + R^2 \sin^2 t} = R \sqrt {\cos^2 t + \sin^2 t}$

Then by Sum of Squares of Sine and Cosine, this distance equals $R$.

Therefore the distance between points satisfying the equation and the center is constant and equal to the radius.