Why e? Exploring the Mystery of Nature's Constant

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In summary: It helped me a lot to understand what e is and where it comes from.In summary, the conversation discusses the origin and significance of the number e, also known as Euler's number. It is mentioned that e appears in many naturally occurring examples, and its importance is due to its properties, particularly in calculus and exponential functions. The conversation also includes a book recommendation about the history and significance of e.
  • #1
quasar987
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oops there's an extra m in my topic title, I was going for why e. :wink:

I believe most the the exponential equations in physics come from the fact that a^[f(x)] = a^[f(x)] * lna * df/dx but the book I had in my first calculus class didn't had a proof for that.

Does anybody have one? And most importantly, why e? Does that number represent anything special; is it a certain ratio like pi or anything like that? It really seem to be coming out of nowhere for me. The only definitions I've seen are all unintuitive: "e is defined as the integral from there to there of this" or "e is the number such that [such and such]", etc. But why does it appear in nature so often??

(If you know a similar thread exists, tell me because I didn't find one.)
 
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  • #2
It appears because it is the solution to the differential equation

dy/dx=y

which appears in lots of forms in 'naturally' occurring examples.

if you took any function, a^x, and differentiated it, what you get back is a constant times a^x, ie d/dx of a^x = l(a)a^x, where l(a) is some constant dependent on a. e happens to be the number where the constant is 1.

given that e^x is now this important function one can use its properties to work out what e is, perhaps by integration or differentiation, looking for its taylor series.
 
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  • #3
Well, yes, a "similar thread" exists at https://www.physicsforums.com/showthread.php?t=45253

I'm surprized you couldn't find that since you posted it! It also contains the incorrect equation "a^[f(x)] = a^[f(x)] * lna * df/dx". What you meant was that the derivative of af(x) is af(x)(ln a)(df/dx).

The proof of that certainly is in most calculus books. Just write af(x) as
ef(x)ln(a) and use the chain rule.

If you are talking about a proof that d(ex)/dx= ex, that depends upon how you define ex itself,.
 
  • #4
e...

A function such that the value of the function at any point equals the rate at which the value of the function is changing at that point

Is that right?

Or

A curve f(x) such that a tangent drawn at a point (x,y) on the curve will have a slope of y.
 
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  • #5
chakotha said:
e...

A function such that the value of the function at any point equals the rate at which the value of the function is changing at that point

Is that right?

Or

A curve f(x) such that a tangent drawn at a point (x,y) on the curve will have a slope of y.
Erm actually generally speaking e is a number not a function :wink:
 
  • #6
e: The Story of a Number
The book can be a good help for you.
Here you can read the first chapter :
http://pup.princeton.edu/chapters/s5342.html
 
  • #7
e is just a number... just like pi or other constants there are some infinite sequences that approximate pi. The reason it is so useful is because of what chakotha said, the derivative of e^x is e^x
hope that helps...
 
  • #8
!

T@P said:
e is just a number... just like pi or other constants there are some infinite sequences that approximate pi. The reason it is so useful is because of what chakotha said, the derivative of e^x is e^x
hope that helps...

You made me remember my algebra teacher :smile:
When I asked: "Where do logarithms come from? Why are they so important? ". He simply repeated the definition of logarithms . Then was the time I really hated math, because I thought math is created just to bother me in the exams :biggrin:
Logarithms are more than a definition and e is much more than just a number. If they weren't so, it wouldn't take us so many years to find them.
Now quasar987 should decide to get to know e better or feel satisfied with the arguments given here.
Thanks
 
  • #9
Omid said:
When I asked: "Where do logarithms come from? Why are they so important? ". He simply repeated the definition of logarithms . Then was the time I really hated math, because I thought math is created just to bother me in the exams :biggrin:

This reminded me of my high school math teacher, she wrote "DERIVATIVES" in big letters (well, not in english) on the board and the derivatives of elementary functions, the (f*g)' = ... and the other couple of rules underneath. Then she showed us how to calculate them. She made no mention of limits even though we learned limits earlier that year, no mention of what derivatives actually are, or how they can be used... I even asked my parents to ask their math teacher friend to explain all of this to me, even though I knew how to calculate what I needed to know, simply because not understanding what it is incredibly bugged me :mad:
 
  • #10
Thanks a lot for the link Omid.
 

1. What is the significance of the mathematical constant e?

The mathematical constant e, also known as Euler's number, is a fundamental constant in mathematics that is approximately equal to 2.71828. It is a key component in many mathematical equations and has a wide range of applications in fields such as calculus, statistics, and physics.

2. How is e calculated?

The value of e is calculated by taking the limit of (1 + 1/n)^n as n approaches infinity. This means that as n gets larger and larger, the result of the equation will get closer and closer to the value of e.

3. What makes e a "natural" constant?

Euler's number is considered a "natural" constant because it arises from natural phenomena and is not dependent on any arbitrary choices or units of measurement. It is also found in many natural processes, such as population growth and radioactive decay.

4. How is e related to other mathematical constants?

Euler's number is closely related to other important mathematical constants, such as pi and the imaginary number i. It can be expressed as the limit of (1 + x)^1/x as x approaches 0, and it is the base of the natural logarithm function, ln(x).

5. Why is e important in the study of nature and science?

Euler's number is a fundamental constant that appears in many natural phenomena, making it a crucial tool for understanding and modeling the world around us. It is used in a wide range of scientific fields, from biology and economics to physics and engineering, and has proven to be an essential component in solving complex problems and equations.

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