Difference between revisions of "Using Mediawiki In The Classroom"

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* Tex formula
 
* Tex formula
  
  Let ''ƒ'' be a continuous real-valued function defined on a [[Interval (mathematics)#Terminology|closed interval]] [''a'', ''b'']. Let ''F'' be the function defined, for all ''x'' in [''a'', ''b''], by
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Let ''ƒ'' be a continuous real-valued function defined on a [[Interval (mathematics)#Terminology|closed interval]] [''a'', ''b'']. Let ''F'' be the function defined, for all ''x'' in [''a'', ''b''], by
  :<math>F(x) = \int_a^x f(t)\, dt\,.</math>
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:<math>F(x) = \int_a^x f(t)\, dt\,.</math>
  Then, ''F'' is continuous on [''a'', ''b''], differentiable on the open interval (''a'',&nbsp;''b''), and
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Then, ''F'' is continuous on [''a'', ''b''], differentiable on the open interval (''a'',&nbsp;''b''), and
 
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:<math>F'(x) = f(x)\,</math>
  :<math>F'(x) = f(x)\,</math>
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for all ''x'' in (''a'', ''b'').
 
 
for all ''x'' in (''a'', ''b'').
 
  
 
* Links to other websites
 
* Links to other websites

Revision as of 22:42, 13 March 2011

  • I find it very easy to develop then deliver lectures with Mediawiki
  • Mediawiki has well tested, powerful features, (It runs Wikipedia),

Including:

  • Tex formula
Let ƒ be a continuous real-valued function defined on a closed interval [a, b]. Let F be the function defined, for all x in [a, b], by
:F(x) = \int_a^x f(t)\, dt\,.
Then, F is continuous on [a, b], differentiable on the open interval (ab), and
:F'(x) = f(x)\,
for all x in (a, b).
  • Links to other websites
  • Links to other pages within Class notes
  • Powerpoint slides
  • Code (to download or cut and paste into Matlab, Maple, or Mathematica, etc.)