122 Chapter 2 • Sequences
(g)(h)an - (Jn
Vn EN, define Un = , where a and (3 are as defined in (f).
a -(3
Prove that u 1 = 1, U2 = 1, and Vn 2 2, Un+2 = Un+I +Un. Thus,
{ un} must b e the Fibonacci sequence. We have found an explicit
formula for the Fibonacci numbers: fn =Un.
Geometric significance of a. Consider a rectangle whose width a
and length a + b are so proportioned that when a square of side a
is removed, as shown here, the remaining rectangle has width and... a+b a
length m the same proportion. That 1s, - a- = b.
a ba a aa b
Figure 2.7The classical Greek mathematicians called this ratio R = ~
b
the "Golden Ratio," and any rectangle with sides in this ratio a
"Golden rectangle." They considered it to be the most aestheti-
cally pleasing of a ll rectangles, and used it frequently in their art and
architecture. Prove algebraically that R = a, defined in (f) above.
(i) Prove that Vn 2 2, fn+ifn-1 - (fn)^2 = (-l)n.
(-l)n+l
(j) Prove that Vn E N, rn+I - rn = f f
n n+l
(k) Use (j) to prove that {r2n} is strictly decreasing and {r 2 n+i} is
strictly increasing.1
13. Let a 2 1. Define the sequence {xn} by x 1 = a , and Xn+I = a+ -.
Xn
1.
Prove that Vn 2 2, a +
2a :::; Xn :::; 2a, and use this result to prove that
{ Xn} is contractive. Find lim Xn.
n->oo
1
14. Let a > 1. Define the sequence {xn} by X1 = a, and Xn+I =
a+xn
1
Prove that Vn EN,
2
a :::; Xn :::; a , and use this result to prove that {xn}
is contractive. Find lim Xn· Compare this limit with that of Exercise 13.
n->oo