Line 4: Line 4:
 
  E= <math>\int_{1}^{3}\ |x ^2|^2\, dx , \,\!</math>
 
  E= <math>\int_{1}^{3}\ |x ^2|^2\, dx , \,\!</math>
 
  E= <math>\int_{1}^{3}\ x ^4\, dx , \,\!</math>
 
  E= <math>\int_{1}^{3}\ x ^4\, dx , \,\!</math>
  E=<math>\frac{1}{5}\!</math>
+
  E=<math>\frac{1}{5}\!</math> (3^5)-(1^5)

Revision as of 16:35, 5 September 2008

Energy and Power

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)

Alumni Liaison

Abstract algebra continues the conceptual developments of linear algebra, on an even grander scale.

Dr. Paul Garrett