"How do I represent my query in this standard form of RA?"

It's not so much a question of "type of algebra" as it is of "type of notation".

Notation using greek symbols typically uses sigma, the restrict condition in subscript appended to the sigma character, and then the subject of the restriction (the relational expression that is subjected to the restrict condition).

Date avoid that notation, because typesetting and/or creating text using such notations is usually a lot harder than it is using just the western alphabet (a math teacher of mine once told us that math textbooks contain the most errors of all).

σ <cond> (<rel exp>) thus denotes the very same algebra expression as (Date's syntax) "<rel exp> WHERE <cond>".

Similarly, with greek symbols, projection is typically denoted using the letter Pi, with the list of retained attributes in subscript appended to the Pi, and the expression that is the subject of the projection following that.

Π <attr list> (<rel exp>) thus denotes the very same algebra expression as (Date's syntax) "<rel exp> { <attr list> }".

The join family of operators is usually denoted, in "greek" symbols, using (variations of) the Unicode BOWTIE character, or that character consisting of a lowercase letter 'x' surrounded by a full circle (usually used to denote full cartesian product, cross-product, ... whatever your algebra course happens to name it).

Some courses provide a "greek-symbol" notation for rename, using the greek letter Rho. Appended in subscript is the rename list, in the form a1->b1,a2->b2,... Appended after that comes the relational expression that is subjected to the rename. Likewise, Date has a non-greek-symbol equivalent syntax : <rel exp> RENAME a1 AS b1, a2 AS b2 , ...

The important thing is to see that these differences are merely differences *in syntactical notation*, not "different algebrae".

EDIT

One could imagine that the greek symbols notation would be the way to program relational algebra into an APL engine, Date's syntax would be the way to program relational algebra into a cobol-like or PL/1-like engine (there effectively exists such an engine called Rel), and the way to program relational algebra into an OO-like engine, could look something like relation.NaturalJoin(otherRelation).Matching(yetOtherRelation.Restrict(condition).project(attributesList)).

`IN`

is just a semi join. – Martin Smith Oct 31 '11 at 22:45`AND EXISTS (SELECT 'found' FROM Appointment a2 WHERE a2.CustomerCode = '102' AND a2.ServerCode = Appointment.ServerCode )`

– topchef Nov 1 '11 at 0:53