(New page: == Energy and Power == The energy and power of a signal can be found through the use of basic calculus. Energy, E: <math> = \int_{t1}^{t2} y(t) </math> For the signal y(t) from 0 to 10...) |
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Energy, E: <math> = \int_{t1}^{t2} y(t) </math> | Energy, E: <math> = \int_{t1}^{t2} y(t) </math> | ||
| − | For the signal y(t) from 0 to 10 seconds | + | For the signal y(t) from 0 to 10 seconds, with y = <math>7x^3</math> |
| + | |||
E = <math> \int_{0}^{10} 7x^3 </math> | E = <math> \int_{0}^{10} 7x^3 </math> | ||
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E <math> = (\frac{7}{3} * 10^4) - (\frac{7}{3} *0)</math> | E <math> = (\frac{7}{3} * 10^4) - (\frac{7}{3} *0)</math> | ||
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| + | Power, P: <math> = \frac{1}{t2-t1}\int_{t1}^{t2} y(t) </math> | ||
| + | |||
| + | P = <math> \frac{1}{10-0}\int_{0}^{10} y(t) </math> | ||
| + | |||
| + | P = <math> \frac {1}{10} * \frac{7}{3} * 10^4 </math> | ||
Latest revision as of 12:42, 5 September 2008
Energy and Power
The energy and power of a signal can be found through the use of basic calculus.
Energy, E: $ = \int_{t1}^{t2} y(t) $
For the signal y(t) from 0 to 10 seconds, with y = $ 7x^3 $
E = $ \int_{0}^{10} 7x^3 $
E = $ = \frac{7}{3}[x^{4}]_{t=0}^{t=10} \! $
E $ = (\frac{7}{3} * 10^4) - (\frac{7}{3} *0) $
Power, P: $ = \frac{1}{t2-t1}\int_{t1}^{t2} y(t) $
P = $ \frac{1}{10-0}\int_{0}^{10} y(t) $
P = $ \frac {1}{10} * \frac{7}{3} * 10^4 $
