A relation in the relational model describes how the tuples {type, value} of a particular ROW are RELATED to each other
As I said, I thought it extended to the concept of referring to other tables as well. But it doesn't so thank you for pointing it out, now let's continue!
The thing pf the most importance when it comes to the schema is that it follows 3NF, I will FAIL if it doesn't
How good my teachers are at detecting fails though is an entirely different question
But you know, what I need you do do right now is to look at my schema and see if the tables are following 3NF, if not, THEN you can teach me more about it, if they ARE 3NF then I do kinda understand it.
OK, so, a relation is basically a set of tuples, and a tuple associates a domain with a value; for instance, { string, "hello" }
Or even, { integer: 1 }
So, let us take a simple table which has two columns, "id" and "value"; "id" is just a name for a tuple and it happens that this tuple's domain is integer; as to "value", it is also just a name and this tuple's domain is string
Now, and this is where it gets interesting
What is a primary key? After all, "id" is just a name for a tuple, right?
But, here's the reason to WHY I thought referring to other tables is also a relational thing. One constraint is the Foreign Key, which ties a table to another
or specifically a column to another
if it's of any interest that that's how I made the connection and thought referring was a part of the relation in RDBMS
A primary key is defined as such: "given a relation R (that is, a table), given a tuple T of that relation (that is, a column), given two instances r1, r2 of that relation (that is, two rows of that table) then it is always true that T(r1) is not null, T(r2) is not null and T(r1) is different from T(r2)"
As to foreign keys, as I'll explain soon, it is also such a constraint :)
But given the definition above, T is a primary key
That is, a particular column (tuple) of a table (relation) acts as a primary key BECAUSE it obeys the above constraint
