*Velocity* (xVel, yVel, together) is a 2D vector. And so is the distance between the mouse and the particles. A *vector* contains both direction and magnitude. So you want a vector that is the difference between the mouse position and the particle position.

```
var posRelativeToMouse = {
x: particle.x - mousPosX,
y: particle.y - mousPosY
};
```

So small numbers of x and y mean the the particle is close to the mouse, and big mean it's far away.

Next we need to figure out how these numbers should affect the velocity of the particle. So we need 2 things.

**What direction do we push them in?**

We already have this, mostly. `posRelativeToMouse`

is a vector that has the direction we want. We just normalize it, which means to set the length of the vector to 1. To do that, we divide each component by the current length of the vector. The length of this vector is always the `distance`

to from the particle to the mouse.

```
var distance = Math.sqrt(
posRelativeToMouse.x * posRelativeToMouse.x +
posRelativeToMouse.y * posRelativeToMouse.y
);
var forceDirection = {
x: posRelativeToMouse.x / distance,
y: posRelativeToMouse.y / distance,
};
```

**How hard do we push the particles?**

This is an inverse of the distance. Close means a big push, far means a little push. So lets reuse our `distance`

we calculated above.

```
// distance past which the force is zero
var maxDistance = 1000;
// convert (0...maxDistance) range into a (1...0).
// Close is near 1, far is near 0
// for example:
// 250 => 0.75
// 100 => 0.9
// 10 => 0.99
var force = (maxDistance - distance) / maxDistance;
// if we went below zero, set it to zero.
if (force < 0) force = 0;
```

Ok we have a direction, and we have the force. All that's left is to apply this to the particle velocity.

```
particle.xVel += forceDirection.x * force * timeElapsedSinceLastFrame;
particle.yVel += forceDirection.y * force * timeElapsedSinceLastFrame;
```

And assuming you are animating your position each frame by that xVel/yVel, you should now have particles being pushed away by the mouse.