ALTA ALTA Standard Folio Data TH-Exponential: Difference between revisions

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By setting  <math>m=L(U,V)</math>  in Eqn. (Temp-Hum) the exponential  <math>pdf</math>  becomes:  
By setting  <math>m=L(U,V)</math>  in Eqn. (Temp-Hum) the exponential  <math>pdf</math>  becomes:  


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::<math>f(t,V,U)=\frac{1}{A}{{e}^{-\left( \tfrac{\phi }{V}+\tfrac{b}{U} \right)}}\cdot {{e}^{-\tfrac{t}{A}\cdot {{e}^{-\left( \tfrac{\phi }{V}+\tfrac{b}{U} \right)}}}}</math>
::<math>f(t,V,U)=\frac{1}{A}{{e}^{-\left( \tfrac{\phi }{V}+\tfrac{b}{U} \right)}}\cdot {{e}^{-\tfrac{t}{A}\cdot {{e}^{-\left( \tfrac{\phi }{V}+\tfrac{b}{U} \right)}}}}</math>
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| align="center" valign="middle" | [http://reliawiki.com/index.php/Template:T-h_exponential T-H Exponential]
| valign="middle" | [http://reliawiki.com/index.php/Template:T-h_exponential T-H Exponential]


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Revision as of 22:03, 10 February 2012

Webnotes-alta.png
Standard Folio Data TH-Exponential
ALTA

By setting [math]\displaystyle{ m=L(U,V) }[/math] in Eqn. (Temp-Hum) the exponential [math]\displaystyle{ pdf }[/math] becomes:


[math]\displaystyle{ f(t,V,U)=\frac{1}{A}{{e}^{-\left( \tfrac{\phi }{V}+\tfrac{b}{U} \right)}}\cdot {{e}^{-\tfrac{t}{A}\cdot {{e}^{-\left( \tfrac{\phi }{V}+\tfrac{b}{U} \right)}}}} }[/math]
T-H Exponential



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