22 SETS Chapter 1
DEFINITION 7
Given sets A and B, we define the cartesian product A x B (read "A cross B,"
cartesian product is often called cross product) by the rule A x B =
{(a, b) 1 a E A, b E 6).Thus A x B consists of all possible distinct ordered pairs whose first ele-
ments come from A and whose second elements come from B. An object x
is an element of A x B if and only if there exist a E A and b E B such that
x = (a, b). Note that there is nothing in the definition to prevent A and B
from being the same set.EXAMPLE 9 Given A = ( 1,2,3) and B = (w, x, y, z), describe A x B by
the roster method.
Solution A x B = ((44, (1, x), (1, y), (1,4, (294, (2, x), (2, Y), (2,z), (394,
(3, x), (3, y), (3,~)). We have chosen to list these ordered pairs by first
pairing the number 1 with each letter, then 2, then 3. We could have used
some other approach, such as pairing each of the three numbers in A with
w, then with x, y, and z, respectively. Any such approach is all right as
long as all the ordered pairs are accounted for, since the order in which
the ordered pairs in A x B are listed is, of course, inconsequential. Note
that (y, 2) is not an element of A x B. You should be able to name a set
closely related to A x B that contains the ordered pair (y, 2), as well as
list the elements of A x A and B x B. 0EXAMPLE 10 Describe A x B if A = B = R. Describe geometrically the
subset I x J of R x R, where I = [3,7] and J = (-2,2).
Solution R x R is the set of all ordered pairs of real numbers, usually pic-
tured by a two-dimensional graph, as shown in Figure l.la, with points
in the plane corresponding to ordered pairs. These in turn are labeledFigure 1.1 (a) The x-y coordinate system; (b) [3,7] x ( - 2,2).
Y Y