pre-cal 40s april 22, 2009
DESCRIPTION
More solving logarithmic equations and a gentle introduction to the number e.TRANSCRIPT
Overgrown Redwood Log and Wildflowers
The Natural Logarithm ...
Now lets solve some logarithmic equations ...
Now lets solve some logarithmic equations ...
And now, solve these logarithmic equations ...
And now, solve these logarithmic equations ...
And now, solve these logarithmic equations ...
Properties of exponential functions
Properties of the exponential growth functionDomain: Range: Root(s): y-intercept: Increasing of Decreasing: Concavity: Asymptote(s):
For example, let's look ata > 1
As an example let's look at
Domain: Range: Root(s): y-intercept: Increasing or Decreasing: Concavity: Asymptote(s):
0 < a < 1
Properties of exponential functions
Properties of the exponential decay function
Properties of logarithmic functions
Properties of the logarithmic growth functionDomain: Range: Root(s): y-intercept: Increasing of Decreasing: Concavity: Asymptote(s):
For example, let's look ata > 0, a ≠ 1
As an example we'll look at0 < a < 1
Properties of logarithmic functions
Properties of the logarithmic decay functionDomain: Range: Root(s): y-intercept: Increasing of Decreasing: Concavity: Asymptote(s):
Who wants to be a millionaire?
What is compound interest?How does this formula "work"?
How much money will you have after 5 years if you invest $300.00 at 6% interest compounded annually? monthly?