Pointwise convergence describes the convergence of a sequence of functions at each individual point in the domain.

Definition

Let be a sequence of functions defined on a set . The sequence converges pointwise to a function on if, for every :

In other words, for each fixed , the values approach as .

Formal Statement

Given a sequence of functions defined on , the pointwise limit of is the function such that, for every and for every , there exists an integer such that for all :

This means that for each point , after a sufficiently large number of steps, gets arbitrarily close to .

Intuition

  • In pointwise convergence, the convergence happens for each individual point separately.
  • It does not require the same rate of convergence for all points; the function may converge faster at some points than others.

Example

Consider the sequence of functions on the interval given by:

As :

  • For , for all .
  • For , as .

Hence, the pointwise limit function is:

Comparison to Uniform Convergence

In uniform convergence, the entire sequence of functions converges to at the same rate across the domain, meaning that the speed of convergence does not depend on . Pointwise convergence allows for different rates of convergence at different points, which can lead to discontinuities in the limit function.