510 Exponential and logarithmic functions
provided that the positive constant k and the coordinate system are suitably
determined. Because of this fact and the fact that the Latin word for chain is
catenus, the graph of (1) appearing in Figure 9.391 is called a catenary. SupposingFigure 9.391that a > 0, find the length L of the part of this catenary that hangs over the
1
interval 0 5 x =< a. 4ns.: L =ksinh ka.4 Compare the graphs of y = sech x and y = 1/(1 + x2).
5 Starting with the formulat= log (x+ x2-1),
show that x = cosh t.
6 Prove the formulaf x2-1 dx = x x2 - 1- i cosh-' x + c
with the aid of (8.488) and use it to show thatcosh-1 xo = 2 [xo xo - 1 -
fixu
x2 - 1 dx].Use this to show that cosh-' xo is the area of the shaded region of Figure 9.371
when x = xo.(^7) Evaluate the integral of the preceding problem with the aid of a hyper-
bolic function substitution.
8 Show that
e= = cosh x + sinh x
e z = cosh x - sinh x.
Show that if there exist constants c, and c2 for which
(1) f(t) = cle(a+b)e + c2e(a-b)t,
then there also exist constants C, and C2 for which
(2) At) = ea'[C, cosh bt + C2 sinh hi].
Use (1) to calculate formulas for f'(t), f"(t), f"'(t), and f(4) (t). Use (2) to cal-
culate f'(t) and f"(t) and observe that the hyperbolic functionsare being nuisances.