Why are they called differentiate & integrate ?

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Discussion Overview

The discussion revolves around the terminology of "differentiate" and "integrate" in calculus, exploring the origins and meanings of these terms. Participants examine the conceptual implications of differentiation and integration, including their mathematical processes and the relationships between them.

Discussion Character

  • Conceptual clarification
  • Technical explanation

Main Points Raised

  • One participant questions the terminology, suggesting that differentiation results in equations that describe slopes, while integration produces many solutions, leading to a potential confusion in naming.
  • Another participant proposes that the term "differential" comes from "difference" methods, explaining that differentiation involves infinitesimal differences.
  • A different participant notes that the verb "integrate" relates to the idea of combining parts into a whole, referencing the ancient Greek concept of area and volume approximation.
  • One participant clarifies that finding the (+C)-solutions is generally referred to as finding the anti-derivative of a function, linking it to the fundamental theorem of calculus.
  • It is mentioned that integration involves adding together an infinite number of pieces to create a whole.

Areas of Agreement / Disagreement

Participants present various interpretations and explanations regarding the terminology, with no consensus reached on a single definitive explanation for the terms "differentiate" and "integrate."

Contextual Notes

The discussion includes references to mathematical concepts such as anti-derivatives and the fundamental theorem of calculus, but does not resolve the nuances of these terms or their implications fully.

physixer
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Why are they called "differentiate" & "integrate"?

I was wondering why. When we differentiate, don't we result in an equation that describes the slopes of many other equations ( + C ) ? So, we'd be "integrating" many equations, different from each other by C, into a single description.
Inversely, when we integrate something, we get many solutions ( + C ). Aren't we producing many from one? In other words, "differentiating"?

Just curious. I'm too lazy to google the original reasonings for these terminologies :P

edit: oops, this should be in General or Calculus forums. Sorry for that.
 
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hi physixer! :smile:

i think the noun "differential" originates from "difference" methods …

eg 1 4 9 16 25 …

the differences are 3 5 7 9 …

(and the second differences are 2 2 2 …)

so when we differentiate, we start with f(x+h) - f(x), which is an infinitesimal difference, which eventually was called a differential​

and the verb "integrate" comes from the (ancient greek) idea that an area or volume can be approximated by adding up all the slices, ie combining all the parts into the whole (and "integral" means "whole") :wink:
 


First off:

Producing the (+C)-solutions are generelly called finding the anti-derivative of a function.

The fundamental theorem of calculus says that we may accurately perform the integration process by finding an anti-derivative, and calculating the difference between the anti-derivative's function values.

The integration process on its own is to add together an infinite number of pieces, i.e, making something "whole"/integrated as tiny-tim said.
 


Okay, thanks!
 

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