Line 8: Line 8:
 
  E= <math>\int_{1}^{3}\ x ^4\, dx , \,\!</math>
 
  E= <math>\int_{1}^{3}\ x ^4\, dx , \,\!</math>
 
   
 
   
  E= <math>\frac{1}{5}\!</math> *<math>(\left((3^5)\!</math> - <math>(1^5)\right)\!</math>
+
  E= <math>\frac{1}{5}\!</math> *<math>(((3^5)\!</math> - <math>(1^5)\!</math>
 
   
 
   
 
  E= <math>\frac{1}{5}\!</math>*<math>(243-1)\!</math>
 
  E= <math>\frac{1}{5}\!</math>*<math>(243-1)\!</math>
 
   
 
   
 
  E= <math>48.4\!</math>
 
  E= <math>48.4\!</math>

Revision as of 17:01, 5 September 2008

Energy and Power

x(t)= $ x^2\! $

Energy calculation

E= $ \int_{1}^{3}\ |x ^2|^2\, dx , \,\! $
E= $ \int_{1}^{3}\ x ^4\, dx , \,\! $

E= $ \frac{1}{5}\! $ *$ (((3^5)\! $ - $ (1^5)\! $

E= $ \frac{1}{5}\! $*$ (243-1)\! $

E= $ 48.4\! $

Alumni Liaison

Meet a recent graduate heading to Sweden for a Postdoctorate.

Christine Berkesch