State Space Form

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In my Signals and Systems II class at University of Idaho, we are learning about the state space form of representing a solution to a LTI differential equation. I'll add more here soon. Consider the differential equation
or

The state of this equation can be described using what is called state space form. State space form gives the blah blah more here.

let
let
so


We can now re-write the equation above to be:

so

and from the definition above


We can take this and put it into matrix form:
Or, more generally,

This is called the state space representation of the differential equation. This can be quite useful because the entire description of the differential equation is available in the matrix, and is easily manipulated using linear algebra.

-Example-

For the circuit below, find a set of state variable equations (there are several ways to do this, I will choose the one I feel is most intuitive.) Circuit1.jpg

Start by using loop (also known as mesh or KVL) analysis.

Loop 1:

Loop 2:

Lets let:
and

So, . Substituting into the equations above, we get:
and

Where is the derivative of .