Estimation lemma


In mathematics the estimation lemma, also known as the inequality, gives an upper bound for a contour integral. If is a complex-valued, continuous function on the contour and if its absolute value is bounded by a constant for all on, then
where is the arc length of. In particular, we may take the maximum
as upper bound. Intuitively, the lemma is very simple to understand. If a contour is thought of as many smaller contour segments connected together, then there will be a maximum for each segment. Out of all the maximum s for the segments, there will be an overall largest one. Hence, if the overall largest is summed over the entire path then the integral of over the path must be less than or equal to it.
Formally, the inequality can be shown to hold using the definition of contour integral, the absolute value inequality for integrals and the formula for the length of a curve as follows:
The estimation lemma is most commonly used as part of the methods of contour integration with the intent to show that the integral over part of a contour goes to zero as goes to infinity. An example of such a case is shown below.

Example

Problem.
Find an upper bound for
where is the upper half-circle with radius traversed once in the counterclockwise direction.
Solution.
First observe that the length of the path of integration is half the circumference of a circle with radius, hence
Next we seek an upper bound for the integrand when. By the triangle inequality we see that
therefore
because on. Hence
Therefore, we apply the estimation lemma with. The resulting bound is