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Difference between revisions of "Derivative/Definition"
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In the image above, the rate of change between the two points is the slope of the line that goes through them: <math>\frac{f(x+h)-f(x)}h</math>.
 
In the image above, the rate of change between the two points is the slope of the line that goes through them: <math>\frac{f(x+h)-f(x)}h</math>.
  
We can move the second point closer to the first one to find a more accurate value of the derivative.  Thus, taking the limit as <math>h</math> goes to 0 will give us the derivative of the function at <math>x</math>:
+
We can move the second point closer to the first one to find a more accurate value of the derivative.  Thus, taking the [[limit]] as <math>h</math> goes to 0 will give us the derivative of the function at <math>x</math>:
  
 
<center>[[Image:derivative2.PNG]]</center>
 
<center>[[Image:derivative2.PNG]]</center>
Line 12: Line 12:
 
<center><math> f'(x) = \lim_{h\to 0}\frac{f(x+h)-f(x)}h. </math></center>  
 
<center><math> f'(x) = \lim_{h\to 0}\frac{f(x+h)-f(x)}h. </math></center>  
  
If this [[limit]] exists, it is the derivative of <math>f</math> at <math>x</math>.  If it does  not exist, we say that <math>f</math> is not differentiable at <math>x</math>.
+
If this limit exists, it is the derivative of <math>f</math> at <math>x</math>.  If it does  not exist, we say that <math>f</math> is not differentiable at <math>x</math>.
  
 
== See also ==
 
== See also ==
 
* [[Calculus]]
 
* [[Calculus]]
 
* [[Derivative]]
 
* [[Derivative]]

Revision as of 07:36, 24 September 2007

The derivative of a function is defined as the instantaneous rate of change of the function at a certain point. For a line, this is just the slope. For more complex curves, we can find the rate of change between two points on the curve easily since we can draw a line through them.

Derivative1.PNG

In the image above, the rate of change between the two points is the slope of the line that goes through them: $\frac{f(x+h)-f(x)}h$.

We can move the second point closer to the first one to find a more accurate value of the derivative. Thus, taking the limit as $h$ goes to 0 will give us the derivative of the function at $x$:

Derivative2.PNG


$f'(x) = \lim_{h\to 0}\frac{f(x+h)-f(x)}h.$

If this limit exists, it is the derivative of $f$ at $x$. If it does not exist, we say that $f$ is not differentiable at $x$.

See also

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