If you have an angle and a speed (scalar), the components in the x- and y-directions are easy:

```
vx = (speed)*cos(angle)
vy = (speed)*sin(angle)
```

Angle needs to be in radians for most languages, not degrees. Make sure you convert it.

So if you have a point (ux, uy) at time t1, then the position at time t2 is:

```
ux(t2) = ux(t1) + vx*(t2-t1)
uy(t2) = uy(t1) + vy*(t2-t1)
```

Let's see what it looks like in Java:

```
/**
* Method for updating a position giving speed, angle, and time step
* @param original coordinates in x, y plane
* @param speed magnitude; units have to be consistent with coordinates and time
* @param angle in radians
* @param dtime increment in time
* @return new coordinate in x, y plane
*/
public Point2D.Double updatePosition(Point2D.Double original, double speed, double angle, double dtime) {
Point2D.Double updated = new Point2D.Double();
updated.x = original.x + speed*Math.cos(angle)*dtime;
updated.y = original.y + speed*Math.sin(angle)*dtime;
return updated;
}
```

2D world, thevelocity isbasically thespeedit travels at. – David Mar 21 '12 at 12:31