If you look at the documentation you will see that SensorEvent returns an array which represents the vector of all the forces.
http://developer.android.com/reference/android/hardware/SensorEvent.html#values
This is how the components of the acceleration break down into each axis:

```
values[0] //acceleration on x axis
values[1] //acceleration on y axis
values[2] //acceleration on z axis
```

You need to find which direction gravity is operating in then decompose that into its component parts. The magnitude of the gravity force will always be 9.8 but the direction, and hence how it breaks down into the component parts, will change. *Assuming* that we could get the value of gravity and store that vector in an array like `gravity[3]`

:

```
gravity[0] //gravity x axis
gravity[1] //gravity y axis
gravity[2] //gravity z axis
```

The total acceleration, `T`

, on the phone is `T = g + a`

. To get just `a`

we would need `a = T - g`

:

```
linear_acceleration[0] = event.values[0] - gravity[0];
linear_acceleration[1] = event.values[1] - gravity[1];
linear_acceleration[2] = event.values[2] - gravity[2];
```

Notice how this calculates everything element by element because it's a vector operation.

The tricky part is finding `gravity`

because there is only one accelerometer in the phone which measures both the gravity AND the other forces at the same time. We have 2 different forces that we want to find from the one sensor. If we could only look at the forces at an isolated point in time we wouldn't be able to extract the information. However we do get samples over a range of times and by looking at how the forces change over time we can extract the information.

This means we need to filter out the results from that one source based on how quickly those forces change. The magnitude of acceleration due to gravity does not change quickly because it doesn't change at all. Gravity is a constant force. However other forces will change over time. If we filter out the slow changing forces like gravity by using a high-pass filter then the remaining forces are the fast changing ones like the forces being applied to the phone. This is why the high-pass filter is used.