It looks like you're just specifying the end points of each segment.

A good way to understand sine and cosine are through the unit circle. Here's a picture from Wikipedia:

To explain this, the point can be at different position on the circle. This can be described in two ways. The first is that *t* is the angle, and you also need to know the radius of the circle which is 1, here, which is what's meant by the *unit* circle. This is the natural way to talk about the position of a point on a circle. Also, though, one can describe the position of the point in terms of *x* and *y*. If you do that, you find *x=cos(t)* and *y=sin(t)*. This is basically the definition of *sin* and *cos*, so there's not a lot to understand, it's just that if the position in terms of *t* is then angle, then the position in terms of *x* and *y* is *cos(t)* and *sin(t)*.

So it looks like you're just specifying the end points of each segment.

As you know, *t* can be expressed in terms of degrees or radians. Radians are the natural values here, so it's better to think in terms of radians, and t, these equations must be in radians for the equations to work out. In talking to people, degrees is useful, but in math, it's always best to think in terms of radians. Radians, btw, are just the circumference of the arc, so all the way around the unit circle is *2pi* radians, half way around is *pi* radians, etc.

If the circle is not of unit radius, then the instead of x=cos(t) and y=sin(t), you have x=R*cos(t) and y=R*sin(t). And if the circle isn't centered at the origin, you have x=x0+R*cos(t) and y=y0+R*sin(t).

Here's some code in Python:

```
from numpy import *
import matplotlib.pyplot as plt
n_segments = 8
angle_step = 2*pi/n_segments
for i in range(n_segments):
angle = angle_step*i
xa, ya = cos(angle), sin(angle) # convert the angles into the x,y representation
plt.plot(xa, ya, 'ob', markersize=15)
plt.plot((0, xa), (0, ya), 'g') # plot the line between the two endpoints
plt.show()
```

I hope it's clear by now that this isn't y=mx+b, which is about lines. Here the lines are done for you by the plotting program, and you just supply the endpoints of the segments.