Ok, so I am learning HTML5 and I wanted to update my portfolio to have a moving black hole instead of a static picture of one. I could have just taken the picture and rotated it in the canvas, but I thought it would be better if I did it all without an image. The major issue I am having is I can't seem to understand how to calculate (and therefor update) the path of each particle along a circular path.

I have read the equation to convert from polar coordinates to cartesian, but there is obviously something I am doing wrong.

Here are the most relevant snippets of code:

particle class

```
function particle(rad, vel, dist, angle, x, y){
this.rad = rad;
this.vel = vel;
this.dist = dist;
this.x = x;
this.y = y;
this.angle = angle;
}
```

Function to initialize the particles being used

```
function initParticles(parts, innerCircleRad, nbr_circles, w, h){
var rad, vel, dist;
for (var i = 1; i <= nbr_circles; ++i) {
if(i < 10){
rad = (Math.random()*2.5)+1;
vel = (Math.random()*.5)+3;
dist = (Math.random()*1.5) + innerCircleRad;
angle = Math.floor(Math.random()*(360))
}else if( i < 15){
rad = (Math.random()*2.7)+1;
vel = (Math.random()*.4)+2;
dist = (Math.random()*1.5) + innerCircleRad+1;
angle = Math.floor(Math.random()*(360))
}else if( i < 18){
rad = (Math.random()*2.8)+1;
vel = (Math.random()*.3)+1;
dist = (Math.random()*1.5) + innerCircleRad+2.5;
angle = Math.floor(Math.random()*(360))
}else {
rad = (Math.random()*2.9)+1;
vel = (Math.random()*.2)+1;
dist = (Math.random()*1.5) + innerCircleRad+4;
angle = Math.floor(Math.random()*(360))
}
var x = w/2 + Math.cos(angle) * dist;
var y = h/2 + Math.sin(angle) * dist;
parts[i] = new particle(rad, vel, dist, angle, x, y);
}
}
```

Function that gets continually called to update the canvas and draws the points

```
function refresh(dc,width,height,frame_number, particles, nbr_circles) {
dc.clearRect(0,0,width,height);
dc.fillStyle='#000';
for (var i = 1; i <= nbr_circles; ++i) {
// set up increment for new angle based on particles velocity
var angle_incr = ((frame_number)/12.0) * Math.PI/180;
// updated new angle, make sure it is in correct range of circle
particles[i].angle = (angle_incr+particles[i].angle)%Math.PI/180
// set new x and y points based on the angle change
particles[i].x = particles[i].x + Math.cos(particles[i].angle) * particles[i].dist;
particles[i].y = particles[i].y + Math.sin(particles[i].angle) * particles[i].dist;
// draw tiny circle at x,y
dc.beginPath();
dc.arc(particles[i].x, particles[i].y, particles[i].rad, 0, 2*Math.PI, false);
dc.fill();
}
}
```

I have the code set up so I can pause and play, which turns on and off the updating method. For some reason while play is on (it is updating) I can't seen anything in the canvas, but when I pause all the dots show up. So that is the first issue, I thought it might have something to do with the velocity being too high so I dropped it down, but I couldn't see the particles any time while the updating was happening. Every time I play then pause the dots show up, and they have not rotated but shifted to the right along the x axis... I output the x and y coordinates of the particles and it seems like only the x value is being updated and only going up. Which explains their motion.

So the 2 questions I have are:

How do I get each particle to follow its own circular path based on its distance from the center of the circle, its velocity and current x y coordinates.

How do I get the particles to display while following the path described above (since for some reason they aren't displaying at all, possible because of their velocity?)

My end goal is to have an inner circle that is empty then lots of particles close to the radius of the inner circle moving fast. Then less particles as you move out to the outer radius of the black hole, where the particles are moving slower. I have looked around for tutorials all day, and I haven't found much that was relevant besides the equations for a circular path. But I can't seem to get that working.

Any insight or reference where a similar problem is broken down I would really appreciate it. Thanks for taking the time to read this.

-Alan