Exponential Function Reference

This is the general Exponential Function (see below for ex):

f(x) = ax

a is any value greater than 0

Properties depend on value of "a"

  • When a=1, the graph is a horizontal line at y=1
  • Apart from that there are two cases to look at:

a between 0 and 1

exponential function
Example: f(x) = (0.5)x

For a between 0 and 1

a above 1

exponential function
Example: f(x) = (2)x

For a above 1:

Plot the graph here (use the "a" slider)

In General:

  • It is always greater than 0, and never crosses the x-axis
  • It always intersects the y-axis at y=1 ... in other words it passes through (0,1)
  • At x=1, f(x)=a ... in other words it passes through (1,a)
  • It is an Injective (one-to-one) function

Its Domain is the Real Numbers: Real Numbers

Its Range is the Positive Real Numbers: (0, +∞)

Inverse

ax   is the inverse function of   loga(x) (the Logarithmic Function)

So the Exponential Function can be "reversed" by the Logarithmic Function.

The Natural Exponential Function

This is the "Natural" Exponential Function:

f(x) = ex

Where e is "Eulers Number" = 2.718281828459... etc

natural exponential function
Graph of f(x) = ex

The value e is important because it creates these useful properties:

At any point the slope of ex equals the value of ex :

natural exponential function
when x=0, the value of ex = 1, and slope = 1
when x=1, the value of ex = e, and slope = e
etc...

The area up to any x-value is also equal to ex :

natural exponential function