To show that the cos function is uniform continuous on R, instead of showing that the function satisfies that Lipschitz condition ($|cos(x_1)-cos(x_2)| \le |x_1-x_2|$ for all $x_1, x_2$ in $R$), is there an alternative way to show that cos function is uniformly continuous on R. Is it possible to show the uniform continuity making use of the fact that the function is uniformly continuous on $[0, 2 \pi]$?
Uniform Continuity of Cos Function without use Lipschitz Condition
0
$\begingroup$
real-analysis
continuity
-
0Since the derivative of this function is bounded,use the Lagrange mean-value theorem,you can get what you need. – 2012-11-05
-
1Hanna, I think you have the right idea. You know that $\cos{x}$ is periodic, and continuous functions are uniformly continuous on compact sets. Therefore, for every $\epsilon$, the $\delta$ you pick (using the usual symbols for the definition) will be the same for every interval of length $2\pi$. – 2012-11-05