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- Compute the energy and the power of the CT sinusoidal signal below:1 KB (178 words) - 19:48, 1 December 2018
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- I will calculate the energy expended by the signal <math>sin(2t)</math> from <math> t = 0 </math> to <math> t = 8\pi </math> - ==Power==819 B (140 words) - 17:25, 4 September 2008
- Suppose a signal is defined by <math>cos(t)</math> Suppose we want to compute the energy of the signal <math>cos(t)</math> in the interval <math>0</math> to <math>2\pi</math>.1 KB (199 words) - 20:14, 4 September 2008
- '''''I chose to compute the energy and power for the signal f(t) = 3x.''''' ==Power==574 B (97 words) - 05:11, 5 September 2008
- == Signal energy == == Signal power ==726 B (122 words) - 20:45, 4 September 2008
- Computation of Signal Energy and power. Source for definition Of Continuous Signal: Wikipedia.778 B (99 words) - 13:21, 5 September 2008
- == Signal == == Average Power ==1 KB (189 words) - 21:40, 4 September 2008
- ==Signal== ==Power==1 KB (204 words) - 22:14, 4 September 2008
- == Signal Energy == Signal Energy expended from <math>t_1\!</math> to <math>t_2\!</math> for CT functi2 KB (295 words) - 06:34, 5 September 2008
- == For a Continuous Time Signal== Average power in time interval from [<math>t_{1},t_{2} </math>]:788 B (127 words) - 12:34, 5 September 2008
- Compute the Energy and Power of the signal <math>x(t)=\dfrac{2t}{t^2+5}</math> between 0 and 2 seconds. ==Power==811 B (121 words) - 07:08, 5 September 2008
- ==Energy of a CT signal== ==Power of a CT signal==324 B (62 words) - 07:39, 5 September 2008
- The formula for the energy of this signal is given by: == Power ==267 B (48 words) - 07:53, 5 September 2008
- == The following signals are shown to be either an energy signal or a power signal == therefore x(t) is an energy function because the energy is finite, and not a power function.536 B (94 words) - 08:24, 5 September 2008
- == Signal Energy == find the signal energy of <math>x(t)=e^{4t}\!</math> on <math>[0,1]\!</math>700 B (110 words) - 08:53, 5 September 2008
- Given the Signal x(t) = 4sin(2 * pi * 6t), Find the energy and power of the signal from 2 to 6 seconds. == Power ==1 KB (193 words) - 09:32, 5 September 2008
- =Signal Power= The average power over an interval of time <math>[t_1,t_2]\!</math> is <math>P_{avg}=\frac{1}722 B (108 words) - 10:47, 5 September 2008
- == Energy and Power == The energy and power of a signal can be found through the use of basic calculus.552 B (84 words) - 12:42, 5 September 2008
- Consider the signal == Average Power ==747 B (114 words) - 14:19, 5 September 2008
- The signal is f(t) = sin(t) and t1=0 and t2=2pi Therefore for our signal:1,005 B (178 words) - 14:45, 5 September 2008
- == Signal == == Power ==603 B (94 words) - 14:51, 5 September 2008
- ==Energy of a signal== Consider the signal <math>\ y = \sin(t)</math>841 B (130 words) - 15:58, 5 September 2008
- The energy expanded from a time t1 to a time t2 in a CT signal is calculated by The power over a time period t1 to t2 is calculated by1,016 B (167 words) - 15:48, 5 September 2008
- ==Signal Energy and Power==339 B (38 words) - 18:19, 5 September 2008
- == Signal Energy == ==Signal Energy Example==601 B (94 words) - 18:35, 5 September 2008
- The energy of a signal can by computed by the following Energy formula: on the other hand, power of a signal can be calculated by:574 B (92 words) - 18:32, 5 September 2008
- The energy of a signal can by computed by the following Energy formula: on the other hand, power of a signal can be calculated by:574 B (92 words) - 18:37, 5 September 2008
- Compute the energy and power of a CT signal <math>y=2e^t</math> from (0,10) ===Power===596 B (90 words) - 18:57, 5 September 2008
- =Parte Dos - Make a Periodic Signal from Non-periodic Source= y1 = power(t1, 3);1 KB (217 words) - 08:58, 12 September 2008
- ===Signal power and energy === ...008mboutin| Example of how to take the Fourier transform of a non-periodic signal]]2 KB (243 words) - 08:04, 21 November 2008
- Suppose a DT signal x[n] satisfies 4. x[n] has minimum power among all signals that satisfy 1,2,3.672 B (117 words) - 13:08, 25 September 2008
- == Guess the signal == 4. <math>x[n]\,</math> has a minimum power among all signals that satisfy rules 1-31 KB (203 words) - 16:00, 25 September 2008
- ==Guess Signal== The signal is DT periodic with period of 4938 B (182 words) - 07:09, 26 September 2008
- Suppose a DT signal satisfies the following properties: 4)x[n] has minimum power among all signals that satisfy the above properties.2 KB (426 words) - 15:21, 26 September 2008
- We have a DT signal x[n] such that: 4. x[n] has minimum power among all signals that satisfy 1,2,3.719 B (121 words) - 16:44, 26 September 2008
- Suppose we are given the following information about a signal x(t): Two signals that would satisfy these coniditions is the input signal992 B (159 words) - 18:33, 26 September 2008
- Guessing the periodic signal: 4.x[n] has minimum power among all the signals that satisfy 1,2,3.994 B (178 words) - 18:44, 26 September 2008
- ===Guessing The Periodic Signal=== 4. x[n] has minimum power among all the signals that satisfy 1,2,31 KB (186 words) - 20:38, 26 September 2008
- ...r can always operate at peak power and any disruptions to or fading of the signal can be corrected at the receiver. However, frequency modulation will in mos Begin with a signal:1 KB (195 words) - 18:21, 17 November 2008
- |ee??? || CS-2 || (CS-1) || (Digital) Signal Processing | ? || ES-3 || ? || Power Electronics and Electric Drives2 KB (279 words) - 23:00, 9 March 2008
- [[Category:signal]] Compute the energy and the average power of the following signal:6 KB (975 words) - 15:35, 25 February 2015
- =Example of computation of Signal energy and Signal Power =2 KB (276 words) - 10:09, 16 September 2013
- [[Category:signal]] ...ath>E_\infty</math> and the average power <math>P_\infty</math> for the CT signal2 KB (408 words) - 17:20, 25 February 2015
- [[Category:signal]] ...ath>E_\infty</math> and the average power <math>P_\infty</math> for the CT signal1 KB (241 words) - 17:06, 25 February 2015
- [[Category:signal]] ...ath>E_\infty</math> and the average power <math>P_\infty</math> for the CT signal2 KB (415 words) - 17:05, 25 February 2015
- [[Category:signal]] ...ath>E_\infty</math> and the average power <math>P_\infty</math> for the CT signal3 KB (432 words) - 17:55, 25 February 2015
- * Signal properties (even/odd, periodicity, power, energy, etc.)5 KB (643 words) - 11:55, 6 August 2009
- *[[SignalMetricsFormula|Signal Metrics Definitions and Formulas]] (used in [[ECE301]], [[ECE438]]) *[[PowerSeriesFormulas|Power Series]] (used in [[ECE301]], [[ECE438]])3 KB (294 words) - 15:44, 12 March 2015
- keywords: energy, power, signal '''Signal Metrics Definitions and Formulas'''2 KB (307 words) - 14:54, 25 February 2015
- ...ignals_ECE301S11|Compute the norm of a continuous-time complex exponential signal (practice problem)]] from [[ECE301]] ..._signals_ECE301S11|Compute the norm of a discrete-time complex exponential signal (practice problem)]] from [[ECE301]]2 KB (293 words) - 05:21, 3 November 2011
- ...ler's formula to compute the norm of a continuous-time complex exponential signal (practice problem)]] from [[ECE301]] ...Euler's formula to compute the norm of a discrete-time complex exponential signal (practice problem)]] from [[ECE301]]2 KB (249 words) - 18:27, 23 February 2015