Mathematical Methods for Physics and Engineering : A Comprehensive Guide

COMPLEX NUMBERS AND HYPERBOLIC FUNCTIONS

cothx

cothx

tanhx

x

2

4

− 2

− 4

− 2 − 1 1 2

Figure 3.13 Graphs of tanhxand cothx.

metric functions transparent. The similarity in their calculus is discussed further

in subsection 3.7.6.

3.7.3 Identities of hyperbolic functions

The analogies between trigonometric functions and hyperbolic functions having

been established, we should not be surprised that all the trigonometric identities

also hold for hyperbolic functions, with the following modification. Wherever

sin^2 xoccurs it must be replaced by−sinh^2 x, and vice versa. Note that this

replacement is necessary even if the sin^2 xis hidden, e.g. tan^2 x=sin^2 x/cos^2 x

and so must be replaced by (−sinh^2 x/cosh^2 x)=−tanh^2 x.

Find the hyperbolic identity analogous tocos^2 x+sin^2 x=1.

Using the rules stated above cos^2 xis replaced by cosh^2 x,andsin^2 xby−sinh^2 x,andso
the identity becomes

cosh^2 x−sinh^2 x=1.

This can be verified by direct substitution, using the definitions of coshxand sinhx;see
(3.38) and (3.39).

Some other identities that can be proved in a similar way are

sech^2 x=1−tanh^2 x, (3.48)

cosech^2 x=coth^2 x− 1 , (3.49)

sinh 2x=2sinhxcoshx, (3.50)

cosh 2x=cosh^2 x+ sinh^2 x. (3.51)