I agree with the other responders that you should not worry about the XML syntax, but I would also not suggest thinking about the triples immediately either. First start with thinking clearly about the things you're trying to model, then the triples will be more obvious.
So, you have a thing, your car, which is a kind of car. Being any kind of car in general, and being your car in particular, are two different notions. So you'll need two separate names - RDF calls them resources - to represent the class of all cars and the instance of your car. Likewise, there are things that are GPS's in general, and the GPS in your car in particular. Assuming a suitable namespace, then:
:car127 rdf:type :Car .
:gps99 rdf:type :GPS.
That's a triple expressing that a given car (subject
car127) is a member of (predicate
rdf:type) the class of all cars (object
Car), and similarly one for the GPS.
Your car is owned by Nina, who is a person. So that's two more relationships, one saying that Nina is a person, and one that Nina owns that specific car (by re-using the same resource identifying the car):
:nina rdf:type foaf:Person.
:nina foaf:name "Nina".
:car127 :ownedBy :nina.
(OK, I added an extra triple to relate the resource URI
:nina to the name Nina).
The specific GPS is a component of the specific car:
:car127 :containsComponent :gps99.
Now, we say informally that the GPS "has" a given lat and long position. Clearly these change over time (if not, get a new car :). You could model this by having the x and y predicates directly attached to the GPS resource, and repeatedly updating the values in the model. But if you think about your GPS giving a series of readings at particular times, it seems a bit clearer and more descriptive. Then we have:
:gps99 :reading [
The square brackets
[...] is a short-hand way of introducing a new resource whose properties - relationships - we can describe but whose identity we don't know or don't care about. Technically it's called an anonymous node or bNode, but that's not a detail to worry about now. It's enough to note that there's a relationship (':reading') from the GPS device to a resource of type
:Reading (note the capital R - that's a convention to distinguish resources that identify classes from other kinds of resource). This reading resource has four properties: a type, the observed lat and long, and the time of the reading. We could, if we wanted, add more readings for other points in time, which would build up to modelling a track ... but that's another discussion!