Understanding d and Δ in Integration

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The discussion clarifies that "d" and "Δ" represent different concepts in integration. "dA" refers to an infinitesimal change, while "ΔA" denotes the total change between two points, A(x1) - A(x0). After integration, the expression transforms from "dA" to "ΔA" when limits are applied, indicating a finite change rather than an instantaneous one. The term "delta" signifies a change or average change, contrasting with the instantaneous nature of "d." Understanding this distinction is crucial for proper application in calculus.
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How come d becomes (delta)? after integration? I thought d and delta is the same thing. What's the difference between them?

For example,
dA = - PdV

After intergration, it becomes
(delta)A = -(integral)PdV

I can't type the symbols.

thx!
 
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If the integration is going say, from x0 to x1, then (delta)A is an abbreviation for A(x1)-A(x0). (integral)dA=A but applying the limits I get (delta)A. Not at all the same thing as the dA symbol.
 
Delta just means "change in" and is used for just plain change or average change, nothing instantaneous or infintesimal. With calculus, most of the deltas turn into d's, but not all as shown here
 

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