91Ó°ÊÓ

The curve of a circle centered at the point $(a,b)$with$t∈[0,2\mathrm{π}]$.

Consider a curve of a circle centered at the point $(a,b)$with $t∈[0,2\mathrm{π}]$.

The objective is to find the parametric equations which represent the given condition.

Given that the curve is centered at the $(a,b)$, traced once in counterclockvise direction.

The parametric equations which moves counterclockwise direction centered at the point$(a,b)$is given by

$x\left(t\right)=a+r\cos \left(kt\right),y\left(t\right)=b+r\sin \left(kt\right)$

The parametric equations which moves counterclockwise direction starting at $(a+r,b)$.

At the starting point $t=0$, if substitute t value gives the starting point.

That is,

$$\begin{gathered} \left(x\right(t),y(t\left)\right)=(a+r\cos (kt),b+r\sin (kt\left)\right) \\ (x,y)=(a+r\cos (k·0),b+r\sin (k·0\left)\right) \\ (x,y)=(a+r·1,b+r\sin 0) \\ (x,y)=(a+r,b) \end{gathered}$$

Here the coordinate is

$\left(x\right(t),y(t\left)\right)=(a+r\cos (kt),b+r\sin (kt\left)\right)$

$x\left(t\right)=a+r\cos \left(kt\right)$and $y\left(t\right)=b+r\sin \left(kt\right)$forms a circle with center $(a,b)$and which starts at $(a+r,b)$moving in counterclockwise direction.

Therefore, the required parametric equations are $x=a+r\cos \left(kt\right),y=b+r\sin \left(kt\right)$.