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e
By Tony Ho (P1942) on Monday, December 18, 2000 - 03:09 pm:

I know that e = 2.71828...
However, what defines e, and why is it so important in mathematics?

Tony

By Kerwin Hui (Kwkh2) on Monday, December 18, 2000 - 07:41 pm:

One of the proper definitions of e is:

e=lim n®¥ (1+1/n)n

One of the property of e which is the reason behind virtually every case of its importance is that d/dx(ex)=ex.

There are other definition of e, for example:

exp(x)=1+x+½x2+(1/3!)x3+...
e=exp(1)

Kerwin

By Brad Rodgers (P1930) on Monday, December 18, 2000 - 08:03 pm:

e is defined as the limit of (1+1/n)n (or some books define it by a series, but the above definition is more useful - at least for my current intents; and the series definition is hard to remember [at least I can't remember it right now], hence why I'm not going to use it). This is useful because if y1=ex_1, then we can see that

dy1/dx1=ex_1=y1

(see if you can figure out why by letting let e=(1+dx)1/dx)

If we let y1=x2 and x1=y2

then

dx2/dy2=x2

So we can say that for x=ey, from which we can say y=lnx, that dy/dx=1/x. This is important because it allows us to have an integral for 1/x.
If you don't understand any of that, just post back, I know that I found e and ln (especially ln)very hard to understand when I first came across them. (there are a few discussions on this board already on e, I'll post a few of them later).

e also has a ton of significance towards imaginary numbers and trigonometry (see in the complex numbers section of Asked NRICH for more on this). There are also a number of functions concerning e: among them the catenary, which happens to be the way that a chain hangs and the way the St. Louis arch is built.

Brad

By Brad Rodgers (P1930) on Monday, December 18, 2000 - 08:04 pm:

Oops, didn't see your post Kerwin.