Prove $|e^{i\theta} -1| \leq |\theta|$

By the fundamental theorem of calculus $$e^{i\theta}-1=\int_0^\theta ie^{it}\mathrm{d}t$$ Hence...


Think of it that way : You start at point $1+0i$ and move on the unit circle by an angle of theta. This inequality is just saying that going from $1+0i$ to your point $e^{i\theta}$ by a straight line is shorted than going to it by moving along the circle $r\theta$ (where $r=1$ is the radius of the cicle).


And this is somehow a proof without words:

enter image description here $z=e^{i\theta}\\ \theta= \overset{\displaystyle\frown}{AB}\\ AH=\sin(\theta)\\ OH=\cos(\theta)\\ HB=1-\cos(\theta) \\ AB=|e^{i\theta}-1| $

Tags:

Inequality

Complex Numbers

Calculus

Real Analysis

Exponential Function

Related

Prove projection is self adjoint if and only if kernel and image are orthogonal complements Relationship between Nilpotent Matrix and Matrix with all zero diagonal factors. Intersection of hypercube and hyperplane - features of resulting polytope? Do non-square matrices have eigenvalues? Is the empty set a relation? How many $\alpha \in S_n$ are such that $\alpha^2 = 1$? Finding eigenvalues of an unknown matrix subtracted by the identity matrix How prove this two symmetric matrices $AB=0$ In statistics, why do you reject the null hypothesis when the p-value is less than the alpha value (the level of significance) Confused about the definition of a group as a groupoid with one object. Calculating $\int_{0}^{\infty} x^{a-1} \cos(x) \ \mathrm dx = \Gamma(a) \cos (\pi a/2)$ Prove $(a + b) \bmod n = (a \bmod n + b \bmod n) \bmod n$

Recent Posts