What is the significance of the Δn difference operator in mathematics?

AI Thread Summary
The Δn difference operator represents a new way to express changes in sequences, extending the traditional delta notation. It highlights the number of terms involved in the calculation, such as Δ2x involving four terms. This notation appears to be underutilized in mathematics, primarily recognized in applied fields like engineering through finite difference methods. The discussion also references the "nth difference" concept, suggesting a connection to derivatives in calculus. Overall, the significance of Δn lies in its potential to bridge finite and continuum calculus, as explored in works like George Boole's writings.
Vodkacannon
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We all know the greek letter delta is the mathematical symbol that represents "change in."

I though about a new form of delta: Δn. Where n2 = the # of terms when you expand the delta operator.

For example: the usual Δx = x2 - x1
But now: Δ2x = (X4-X3) - (X2-X1). We can see that for Δ2 there are 22 (4) terms.

Why the heck haven't I head of this notation. Does it just not exist? It does not seem to be used that much in mathematics.

Taking a Δn is like taking the nth derivative of a function is it not?

Wow. I discovered something by myself and I didn't even know it existed.
Look here: http://en.wikipedia.org/wiki/Difference_operator
Scroll down until you get to the title called "nth difference"
 
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In my understanding, it is mainly engineers (or at least: applied people) who work with finite difference methods. So if you don't care for applications, then it makes sense that you never heard of it.

Please correct me if I'm wrong.
 
Vodkacannon said:
Wow. I discovered something by myself and I didn't even know it existed.
Look here: http://en.wikipedia.org/wiki/Difference_operator
Scroll down until you get to the title called "nth difference"

The basic topic to look up is "The Calculus Of Finite Differences". A interesting book on the subject was written by George Boole himself.
 

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