- categories: Real Analysis, Definition
Definition
Darboux Integrability is a method for defining the integral of a function based on the concept of upper and lower sums. It is particularly useful for determining the integrability of functions that may not be Riemann integrable.
Darboux Upper and Lower Sums
For a function and a partition of the interval , where :
- Lower Sum ( L(f, P) ):
where
- Upper Sum ( U(f, P) ):
where
Integrability Condition
A function is said to be Darboux integrable on the interval if the lower and upper sums can be made arbitrarily close as the partition gets finer. Formally, is Darboux integrable if:
where ( ||P|| ) is the norm of the partition, defined as:
Relationship to Riemann Integrability
- A function is Riemann integrable if and only if it is Darboux integrable.
- The concepts of upper and lower sums provide an alternative perspective on Riemann integration, allowing one to analyze functions with potentially discontinuous behavior.
Properties
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Monotonic Functions: If is monotonic on , then is Darboux integrable.
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Continuous Functions: If is continuous on , then it is Darboux integrable.
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Discontinuities: A bounded function that has a finite number of discontinuities on is Darboux integrable.
Example
Consider the function on the interval .
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Choose a partition
- Lower sum
- Upper sum
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Refine the partition to make the upper and lower sums converge.
Ultimately, as the partition is refined, the lower and upper sums will converge to the same value, which is the definite integral: