92 Chapter 2
The extended complex number system C with the chordal metric as
defined in (1.17-14), (1.17-15), and with x( oo, oo). = 0 is also a metric space.
We shall use the notation ( C, x) for this space. Of course, the same metric
x, as defined in (1.17-14), may also be used in C. The corresponding space
will be denoted (C, x).
In addition to (1.17-16) other metrics can be introduced in C. For
instance, if z =.x + iy,z^1 = x^1 + iy^1 , we may define
p(z,z
1) =Ix - x
1
I + IY-Y
1
1This is sometimes called the city-block distance because of its obvious
geometrical interpretation.
- The set of ordered n-tuples of real numbers x = ( x1, x2, ... , Xn) with
distance function defined by
[n ]%
d(x,y) = t;(xk -Yk)^2
is called the Euclidean n-dimensional space, denoted (~n, d). The case
n = 1 gives (~1, d), and the space (~^2 , d) is the same as (C, d) (as a metric
space).
The same set of ordered n-tuples of real numbers with distance
and p ;:::: 1 is called pseudo-Euclidean n-dimensional space, denoted
(~n,dp)·
The same set may also be made into a metric space by introducing the
metric
p(x, y) =max k Jxk -Ykl
- The set C[a, b] of all continuous real-valued functions defined on the
interval [a, b] with distance function
d(f,g) = max Jf(t) - g(t)J
a:=;t::;bis a metric space, denoted simply C[a, b].
The same set with distance function defined by
{b }1
/2