First thing I would do is change the deltaX and deltaY to ballAngle and deltaSpeed. That way you'd be moving from a rectangular coordinates system to a polar one. Due to the nature of the movement of the ball (Goes in a straight line and changes the angle of the line at each impact) this will make your work easier. From now on you'd only have to change ballAngle to update the ball's direction.

However you'll have to update the function that draws the balls for it to move back from polar to rectangular coordinates so you can display it on the screen. A little bit of high-school trigonometry will let you calculate screen position deltas depending on your angle and speed:

```
newPosition = oldPosition + movementVector
```

with:

```
movementVector.x = deltaSpeed*cos(ballAngle)
movementVector.y = deltaSpeed*sin(ballAngle)
```

Of course these equations might need some modification based on relative to what you measure the ball's angle.

Now to modify the ball's angle at each collision with the paddle, you only have to increment or decrement the angle of the ball depending on which part of the paddle it touches, and the math in the drawing function should take care of updating x and y positions realistically.

I hope this helps.