You can model this quite easiy by giving the ball the following properties:

```
float currentSpeed;
float currentAcceleration;
float maxSpeed;
```

On the initialization you give the ball object a new *currentSpeed* of some low value, such as 0.1, and some (far lower) *currentAcceleration* value, such as 0.01. You could also give it a *maxSpeed*, as most objects in the real world are percieved to have a maxium velocity they can reach.

You can then create a function *updateBall()* that is called at regular intervals (say, every 30 miliseconds). This function calculates the time that's passed since the last time it was called, and from that you can calculate an adjusted value of the *currentAcceleration* (this is to allow for the fact that the function will not be called at exactly 30ms each time). You can then add this adjusted value to the ball's *currentSpeed* (you can use the maxSpeed to prevent the *currentSpeed* from ever going to ridiculous speeds for your game). In this same function, you could also use the *currentSpeed* to calculate the position the ball should move to.

The trick then is to find adequet values for *currentSpeed*, *currentAcceleration* and *maxSpeed*, which is dependant on the model of your game.

Hope this helps. Thanks.

`ballSpeed += 0.001;`

– Matthias Bauch Jan 31 '11 at 14:00