24 Chapter^1Corollary 1.1 (Cauchy-Schwarz Inequality). If {zi, ... ,zn} and {w 1 , ... ,
wn} are two sets of complex numbers (n ;::: 1), then
n^2 n n
I>kw1, SL lzkl
2
L lwkl(^2) (1.6-15)
k=l k=l k=l
where the equality sign holds iff the Zk are proportional to the Wk.
Proof This follows at once from (1.6-14) since the right-hand side of this
equation is a nonnegative number. We have equality only when that right-
hand side vanishes, i.e., iff
ZiWj - ZjWi = 0 (1.6-16)
which is equivalent to z; = rw;, where r :f 0 is a constant of proportionality.
Of course, condition (1.6-16) is trivially true if all Zk or all Wk are zeros.
Exercises 1.2
- Find the absolute value of each of the following.
(a) 15-Si (b) 3+i
(c) 4/s-^3 / 5 i (d) (a^2 - b^2 ) + 2abi - Prove that z1 z 2 = 0 iff z 1 = 0 or z 2 = 0 by means of the properties of
the modulus of a complex number.
3. If lz1 I :f lz2 I show that
I
w I 1w1
z1 + z2 S llz1I - lz2ll4. (a) If z = x + iy, prove that lxl + IYI S V2°1zl.
(b) If z1 = X1 + iy1 and z 2 = x 2 + iy 2 , prove that
I
X1 Y1 I = Z1Z2 ~ Z1Z2
x2 Y2 2z- A complex number u such that lul = 1 is called unimodular. Show that
the following complex numbers are unimodular.
(a)
1
;
1(z:f:O) (b) cosB+isinB(c) l+k~ (d) :-~ (z:f w)
1-ki z-w
- Show that if u and v are unimodular, the numbers u, 1/u, uv, u/v,
and un are also unimodular. - If lul = 1 and u :f -1, prove that u can be expressed in the form