Dini's theorem

In the mathematical field of analysis, Dini's theorem says that if a monotone sequence of continuous functions converges on a compact space and if the limit function is also continuous, then the convergence is uniform.[1]

Formal statement

If X is a compact topological space, and { fn } is a monotonically increasing sequence (meaning fn(x) ≤ fn+1(x) for all n and x) of continuous real-valued functions on X which converges pointwise to a continuous function f, then the convergence is uniform. The same conclusion holds if { fn } is monotonically decreasing instead of increasing. The theorem is named after Ulisse Dini.[2]

This is one of the few situations in mathematics where pointwise convergence implies uniform convergence; the key is the greater control implied by the monotonicity. Note also that the limit function must be continuous, since a uniform limit of continuous functions is necessarily continuous.

Proof

Let ε > 0 be given. For each n, let gn = f fn, and let En be the set of those xX such that gn( x ) < ε. Each gn is continuous, and so each En is open (because each En is the preimage of an open set under gn, a continuous function). Since { fn } is monotonically increasing, { gn } is monotonically decreasing, it follows that the sequence En is ascending. Since fn converges pointwise to f, it follows that the collection { En } is an open cover of X. By compactness, there is a finite subcover, and since En are ascending the largest of these is a cover too. Thus we obtain that there is some positive integer N such that EN = X. That is, if n > N and x is a point in X, then |f( x ) fn( x )| < ε, as desired.

Notes

  1. Edwards 1994, p. 165. Friedman 2007, p. 199. Graves 2009, p. 121. Thomson, Bruckner & Bruckner 2008, p. 385.
  2. According to Edwards 1994, p. 165, "[This theorem] is called Dini's theorem because Ulisse Dini (1845–1918) presented the original version of it in his book on the theory of functions of a real variable, published in Pisa in 1878.".

References

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