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Page title matches
- Compute the power and energy of the signal We will find the average power in one cycle of the cosine waveform.1,007 B (151 words) - 13:45, 24 February 2015
- ==Power==1 KB (185 words) - 10:12, 2 September 2008
- We will compute the Power and Energy of a 440HZ sin wave, also known as an "A". == Average Power ==917 B (143 words) - 09:29, 4 September 2008
- == Average Power ==1 KB (193 words) - 13:29, 2 September 2008
- ==Power== According to formula of Power of a singal,we can get:945 B (160 words) - 16:01, 3 September 2008
- == Signal Power == <math>\, Power = \frac{1}{2\pi - 0}\int_0^{2\pi}{|cos(x)|^2dx}</math>650 B (86 words) - 06:49, 3 September 2008
- == Average Power ==644 B (94 words) - 06:39, 3 September 2008
- The function that we are using in this example to compute the signal power and energy is: == Power Calculation ==1 KB (170 words) - 18:37, 3 September 2008
- Given the Signal <math>x(t)=3sin(2*pi*3t)</math>, Find the energy and power of the signal from 0 to 5 seconds. == Power ==1 KB (206 words) - 08:36, 4 September 2008
- This page calculates the energy and power of the <math>2\sin(t)\cos(t)</math> signal. == Power ==1 KB (240 words) - 08:03, 4 September 2008
- This page calculates the Energy and Power of the signal <math>2\sin(t)\cos(t)</math> ==Power==1 KB (221 words) - 08:17, 4 September 2008
- == Energy and Power == === Power ===897 B (142 words) - 10:00, 4 September 2008
- == Power ==888 B (154 words) - 10:48, 4 September 2008
- == Power ==572 B (80 words) - 13:47, 4 September 2008
- == Average Signal Power== The average signal power over an interval <math>[t_1,t_2]\!</math> is defined as <math>P_{avg}=\frac1 KB (172 words) - 13:29, 4 September 2008
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76 B (11 words) - 13:40, 4 September 2008
- == Signal Energy and Power Calculations == The average power of a signal between specific time limits is defined as:655 B (97 words) - 15:50, 4 September 2008
- == Power == Power of the equation <math>e^{-2t}u(t)</math> is 0 because the energy of the sig329 B (60 words) - 14:39, 4 September 2008
- == Power ==668 B (104 words) - 15:05, 4 September 2008
- == Power of a Signal == :<math>Average Power = \frac{1}{t2 - t1}\int_{t1}^{t2}x(t)^2 </math>536 B (79 words) - 15:09, 4 September 2008
- ==Signal Energy and Power== Define a signal (either CT or DT) and compute its energy and its power. Post your answer on Rhea. Give your page a descriptive title.2 KB (248 words) - 13:04, 5 September 2008
- == Power ==775 B (125 words) - 16:11, 4 September 2008
- ==Average Power Calculation for function <math>y = \sqrt(x)</math> with timespan from 0 to575 B (83 words) - 16:22, 4 September 2008
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4 KB (734 words) - 15:54, 25 February 2015
- ==Power== ...ulate the average power of the same function from 0 to 8<math>\pi</math>. Power is very easy to calculate once you have the Energy.819 B (140 words) - 17:25, 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
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647 B (89 words) - 21:00, 4 September 2008
- == Signal power == The power can be found using this function:726 B (122 words) - 20:45, 4 September 2008
- Computation of Signal Energy and power. <math>\,\! x(t)=2t^2+1</math>, find the Energy and Power from <math>\,\!t_1=1</math> to <math>\,\!t_2=4</math>778 B (99 words) - 13:21, 5 September 2008
- == Average Power ==1 KB (189 words) - 21:40, 4 September 2008
- ==Power==1 KB (204 words) - 22:14, 4 September 2008
- 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 the power of the function A time shift should not effect the energy or power of periodic function over one period (0 to 2<math>\pi</math> in this case).1 KB (169 words) - 18:20, 5 November 2010
- ==Power of a CT signal== ==Power of a DT signal==324 B (62 words) - 07:39, 5 September 2008
- == Power == The power of this signal is 0 because the energy of the signal is not <math>\infty</m267 B (48 words) - 07:53, 5 September 2008
- == Signal Power == Average signal power between <math>[t_1,t_2]\!</math> is <math>P_{avg}=\frac{1}{t_2-t_1}\int_{t_700 B (110 words) - 08:53, 5 September 2008
- ==Power== Power of cos(2t)608 B (100 words) - 10:53, 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
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682 B (110 words) - 13:42, 5 September 2008
- == Average Power == <math>Avg. Power = {1\over(t2-t1)}\int_{t_1}^{t_2}\!|x(t)|^2 dt</math>747 B (114 words) - 14:19, 5 September 2008
- It is important to remember that the terms "power" and "energy" are related to physical energy. In many systmes we will be interested in examining power and energy in signals over an infinte time interval.508 B (89 words) - 14:16, 5 September 2008
- == Average Power in time interval [t1, t2] == The average power for a signal is given by:1,005 B (178 words) - 14:45, 5 September 2008
- == Power ==603 B (94 words) - 14:51, 5 September 2008
- ==Average Power of a Signal== Here we compute the average power of the same signal above over two cycles:841 B (130 words) - 15:58, 5 September 2008
- == Calculating the Power of a Function == After you have the energy of a function, calculating the power isn't very difficult. Use the following equation.803 B (134 words) - 16:07, 5 September 2008
- Power of 2cos(t)405 B (54 words) - 17:12, 5 September 2008
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740 B (105 words) - 18:58, 5 September 2008
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232 B (39 words) - 19:00, 5 September 2008
- on the other hand, power of a signal can be calculated by: Let's now calculate the energy and power of the following signal: <math>y(t) = x^{2}</math> for <math>t_1 = 0</math574 B (92 words) - 18:37, 5 September 2008
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103 B (18 words) - 15:29, 15 October 2008
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101 B (18 words) - 15:32, 15 October 2008
- Average Power:417 B (73 words) - 07:39, 16 June 2009
- =Continuous-Time (Average) Signal Power= This is a hub page to link other pages having to do with the power of a continuous-time signal1 KB (220 words) - 10:49, 21 April 2015
- Maximum Power Transfer774 B (100 words) - 10:06, 4 March 2015
- =3.3 The Power Spectrum= '''Definition.''' Power spectrum3 KB (492 words) - 11:53, 30 November 2010
- [[Category:power]] Topic: Signal Energy and Power4 KB (595 words) - 11:01, 21 April 2015
- Topic: Signal Energy and Power Compute the energy <math>E_\infty</math> and the power <math>P_\infty</math> of the following discrete-time signal2 KB (317 words) - 16:18, 26 November 2013
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70 B (8 words) - 08:46, 21 September 2011
- [[Category:power]] Topic: Signal Energy and Power2 KB (373 words) - 10:09, 22 January 2018
- [[Category:power]] Topic: Signal Energy and Power2 KB (229 words) - 10:22, 22 January 2018
- Topic: Signal Energy and Power Compute the energy <math>E_\infty</math> and the power <math>P_\infty</math> of the following discrete-time signal2 KB (263 words) - 11:13, 22 January 2018
- Compute the energy <math class="inline">E_\infty</math> and the power <math class="inline">P_\infty</math> of the DT exponential signal below:1 KB (161 words) - 19:48, 1 December 2018
- Compute the energy <math class="inline">E_\infty</math> and the power <math class="inline">P_\infty</math> of this DT signal:1 KB (196 words) - 19:39, 1 December 2018
- Compute the energy and the power of the CT sinusoidal signal below:1 KB (178 words) - 19:48, 1 December 2018
Page text matches
- ##[[Signal Energy and Power_(ECE301Summer2008asan)|Signal Energy and Power]]7 KB (921 words) - 06:08, 21 October 2011
- Capital Letters whose denominator is the highest power of its kind can be found directly as follows:4 KB (616 words) - 17:26, 23 April 2013
- ...efan-Boltzmann law which gives the exact form of this dependency (a fourth-power law) was discovered fifty years later.3 KB (390 words) - 12:10, 11 December 2008
- **[[2012 Spring ECE 433 Saeedifard|ECE433: "Power Electronics", Prof. Saeedifard]]13 KB (1,570 words) - 13:53, 7 August 2018
- *[[Session 1_ECE301Fall2008mboutin|Session 1: 9/2/2008]]: Phasors, Energy, Power, and Geometric Series '''Updated'''5 KB (720 words) - 06:10, 16 September 2013
- Maximum Power Transfer Theorem ...ximum value at a load impedance which is dependent on the impedance of the power source.726 B (126 words) - 11:57, 25 January 2009
- <li><strong>Signal Power</strong>2 KB (406 words) - 11:08, 12 November 2010
- <li><strong>Signal Power</strong>3 KB (508 words) - 06:43, 16 September 2013
- ...scriptstyle p^n-1</math>, every element is a <math>\scriptstyle p</math>th power (that is, every element can be written in the form <math>\scriptstyle a^p</ ...element of <math>\scriptstyle G</math> is a <math>\scriptstyle p</math>th power of some <math>\scriptstyle a</math>.2 KB (358 words) - 11:04, 5 February 2009
- ...scriptstyle p^n-1</math>, every element is a <math>\scriptstyle p</math>th power (that is, every element can be written in the form <math>\scriptstyle a^p</ ...element of <math>\scriptstyle G</math> is a <math>\scriptstyle p</math>th power of some <math>\scriptstyle a</math>.1 KB (243 words) - 20:37, 4 February 2009
- ...Power of a Signal over an infinite interval_ECE301Fall2008mboutin]] {{:CT Power of a Signal_ECE301Fall2008mboutin}}8 KB (989 words) - 07:20, 5 February 2009
- *Display of RF signals normally invisible beneath higher power signals967 B (123 words) - 12:47, 5 February 2009
- ...are nine. It would seem that the number of such gaps is equal to the prime power of the previous unit group. Then, the order of the group <math>\scriptstyle ...le U(3^2)\ =\ \{1,2,4,5,7,8\}</math>, and noted that when you multiply the power of <math>\scriptstyle p</math> (in this case <math>\scriptstyle3^n</math>)9 KB (1,564 words) - 17:29, 22 October 2010
- ...it has been moved. Mimi, in a sense, is actually giving us quite a bit of power. Hhuang - I don't call everyone that doesn't do things the way I like "a do12 KB (2,099 words) - 07:41, 21 March 2009
- ...e <math>\scriptstyle\sqrt[4]{2}</math> implies the presence of its greater power <math>\scriptstyle\sqrt{2}</math>.5 KB (611 words) - 22:17, 21 April 2009
- ...are two different methods here.... should it be times 365 or raised to the power of 365. And how do you know??? THANKS ...sible due to axioms of probability. So I would recommend u raise it to the power.969 B (182 words) - 06:59, 17 September 2008
- ...uldn't use natural log as the antiderivative because the denominator has a power greater than one. To solve the last integral, substitute u for x+1 and the1 KB (224 words) - 08:12, 14 October 2008
- ...th #7 on page 569. How do you deal with the fact that sin is to the fourth power? I tried doing integration by parts and that doesn't seem to work. Then I t if you are dealing with sine to an odd power, and3 KB (587 words) - 05:11, 21 October 2008
- ...bstitute x^2+1 for u and say x^2 = u-1. then, distribute and just use the power rule. There is no need for trig substitution for this. - G Briz That works wonder if the first part of the integral is x to the third power, but in this case, you end up with an uneliminatable x in the derivative of858 B (146 words) - 11:37, 1 November 2008
- ...maginary power causes a real base to act like trig functions, an imaginary power should, possibly, cause an imaginary base to act like an exponential functi4 KB (634 words) - 05:44, 23 September 2011
- ..., but when you have a geometric sequence that doesn't start at n = 1, or a power that isn't (n-1), you can fake it by rewriting the sum as you desire and th704 B (136 words) - 14:34, 30 October 2008
- == Absolute/Conditional Convergence for Power Series == ...tribute, I would appreciate it. It looks like conditional convergence for power series roughly refers to those endpoints that the ratio test fails to deter1 KB (214 words) - 16:57, 8 November 2008
- ...I'm still lost. I need to know WHY you are choosing to raise 1000 to the power of <math>\frac{1}{6}</math>. How do you know to take 1000 to the power of <math>\frac{1}{6}</math> and not <math>\frac{1}{5}?</math>8 KB (1,270 words) - 18:23, 14 September 2008
- ...for some polynomial F. F can be any polynomial, even N to the 10 millionth power. NP is the set of problems you can solve in non-deterministic polynomial ti5 KB (886 words) - 06:38, 21 March 2013
- It is impossible to separate any power higher than the second into two like powers,717 B (130 words) - 00:00, 4 December 2008
- - A new power supply for my desktop301 B (58 words) - 21:40, 13 December 2008
- ==Energy and Power == * [[HW1.5 Adrian Delancy - Energy and Power Calculations for Signals_ECE301Fall2008mboutin]]24 KB (3,272 words) - 06:58, 1 September 2010
- Compute the power and energy of the signal We will find the average power in one cycle of the cosine waveform.1,007 B (151 words) - 13:45, 24 February 2015
- ==Power==1 KB (185 words) - 10:12, 2 September 2008
- We will compute the Power and Energy of a 440HZ sin wave, also known as an "A". == Average Power ==917 B (143 words) - 09:29, 4 September 2008
- == Power ==122 B (19 words) - 11:11, 2 September 2008
- == Average Power ==1 KB (193 words) - 13:29, 2 September 2008
- ==Power== According to formula of Power of a singal,we can get:945 B (160 words) - 16:01, 3 September 2008
- == Power ==475 B (84 words) - 19:38, 2 September 2008
- == Signal Power == <math>\, Power = \frac{1}{2\pi - 0}\int_0^{2\pi}{|cos(x)|^2dx}</math>650 B (86 words) - 06:49, 3 September 2008
- == Average Power ==644 B (94 words) - 06:39, 3 September 2008
- == Power ==952 B (149 words) - 18:51, 5 November 2008
- The function that we are using in this example to compute the signal power and energy is: == Power Calculation ==1 KB (170 words) - 18:37, 3 September 2008
- Given the Signal <math>x(t)=3sin(2*pi*3t)</math>, Find the energy and power of the signal from 0 to 5 seconds. == Power ==1 KB (206 words) - 08:36, 4 September 2008
- This page calculates the energy and power of the <math>2\sin(t)\cos(t)</math> signal. == Power ==1 KB (240 words) - 08:03, 4 September 2008
- This page calculates the Energy and Power of the signal <math>2\sin(t)\cos(t)</math> ==Power==1 KB (221 words) - 08:17, 4 September 2008
- Let us find the energy and average power of a signal <math>x(t) = 5e^{5t}</math> for the time interval [0,5] ==Average Power==739 B (117 words) - 10:12, 4 September 2008
- == Energy and Power == === Power ===897 B (142 words) - 10:00, 4 September 2008
- == Power ==888 B (154 words) - 10:47, 4 September 2008
- == Power ==888 B (154 words) - 10:48, 4 September 2008
- == Power ==572 B (80 words) - 13:47, 4 September 2008
- == Average Signal Power== The average signal power over an interval <math>[t_1,t_2]\!</math> is defined as <math>P_{avg}=\frac1 KB (172 words) - 13:29, 4 September 2008
- any power, exponential or logarithmic function, without a periodic portion, are non-p1 KB (210 words) - 07:25, 14 April 2010
- == Signal Energy and Power Calculations == The average power of a signal between specific time limits is defined as:655 B (97 words) - 15:50, 4 September 2008
- == Power Equation ==569 B (88 words) - 13:55, 4 September 2008
- == Power ==27 B (2 words) - 14:09, 4 September 2008
- Compute the Energy and Power of the signal <math>x(t)=\dfrac{2t}{t^2+5}</math> between 3 and 5 seconds. ==Power==966 B (143 words) - 14:42, 4 September 2008
- == Power == Power of the equation <math>e^{-2t}u(t)</math> is 0 because the energy of the sig329 B (60 words) - 14:39, 4 September 2008
- == Power ==668 B (104 words) - 15:05, 4 September 2008
- == Power of a Signal == :<math>Average Power = \frac{1}{t2 - t1}\int_{t1}^{t2}x(t)^2 </math>536 B (79 words) - 15:09, 4 September 2008
- ==Signal Energy and Power== Define a signal (either CT or DT) and compute its energy and its power. Post your answer on Rhea. Give your page a descriptive title.2 KB (248 words) - 13:04, 5 September 2008
- == Power ==775 B (125 words) - 16:11, 4 September 2008
- ==Average Power Calculation for function <math>y = \sqrt(x)</math> with timespan from 0 to575 B (83 words) - 16:22, 4 September 2008
- Power of a Signal: <math>P = \int_{t_1}^{t_2} \! |f(t)|^2\ dt</math> === Power ===896 B (142 words) - 16:54, 4 September 2008
- ==Power== ...ulate the average power of the same function from 0 to 8<math>\pi</math>. Power is very easy to calculate once you have the Energy.819 B (140 words) - 17:25, 4 September 2008
- The formula for calculating average power is similar to energy:1 KB (199 words) - 20:14, 4 September 2008
- ...ystem containing inductance and/or capacitance. This is known as ''complex power'', an example of a complex number. Here are more examples:2 KB (277 words) - 21:04, 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 power == The power can be found using this function:726 B (122 words) - 20:45, 4 September 2008
- Computation of Signal Energy and power. <math>\,\! x(t)=2t^2+1</math>, find the Energy and Power from <math>\,\!t_1=1</math> to <math>\,\!t_2=4</math>778 B (99 words) - 13:21, 5 September 2008
- == Power and Energy Problem ==1 KB (195 words) - 10:05, 5 September 2008
- == Power == Computer the power from 0 to <math>2\pi</math>.439 B (66 words) - 21:30, 4 September 2008
- == Average Power ==1 KB (189 words) - 21:40, 4 September 2008
- ==Power==1 KB (204 words) - 22:14, 4 September 2008
- ==Energy and Power calculation for <math>x(t) = cos(2t)</math> from <math>0</math> to <math>5 == Power ==558 B (78 words) - 04:40, 5 September 2008
- == Signal Power == For CT functions, the power of a signal from <math>t_1\!</math> to <math>t_2\!</math> is given by the f2 KB (295 words) - 06:34, 5 September 2008
- 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 the power of the function A time shift should not effect the energy or power of periodic function over one period (0 to 2<math>\pi</math> in this case).1 KB (169 words) - 18:20, 5 November 2010
- 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
- ==Power of a CT signal== ==Power of a DT signal==324 B (62 words) - 07:39, 5 September 2008
- == Power == The power of this signal is 0 because the energy of the signal is not <math>\infty</m267 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
- Compute the energy and power of x(t) = <math>(3t+2)^2</math> ==Power==325 B (55 words) - 08:20, 5 September 2008
- == Signal Power == Average signal power between <math>[t_1,t_2]\!</math> is <math>P_{avg}=\frac{1}{t_2-t_1}\int_{t_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
- Compute the energy and power of x(t) = <math>(t+1/2)^2</math> ==Power==348 B (56 words) - 10:02, 5 September 2008
- ==Power== Power of cos(2t)608 B (100 words) - 10:53, 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
- == Average Power == <math>Avg. Power = {1\over(t2-t1)}\int_{t_1}^{t_2}\!|x(t)|^2 dt</math>747 B (114 words) - 14:19, 5 September 2008
- == Power ==484 B (69 words) - 14:08, 5 September 2008
- It is important to remember that the terms "power" and "energy" are related to physical energy. In many systmes we will be interested in examining power and energy in signals over an infinte time interval.508 B (89 words) - 14:16, 5 September 2008
- == Average Power in time interval [t1, t2] == The average power for a signal is given by:1,005 B (178 words) - 14:45, 5 September 2008
- == Power ==603 B (94 words) - 14:51, 5 September 2008
- ==Average Power of a Signal== Here we compute the average power of the same signal above over two cycles:841 B (130 words) - 15:58, 5 September 2008
- == Calculating the Power of a Function == After you have the energy of a function, calculating the power isn't very difficult. Use the following equation.803 B (134 words) - 16:07, 5 September 2008
- The power over a time period t1 to t2 is calculated by The equation used to calculate both energy and power will be1,016 B (167 words) - 15:48, 5 September 2008
- '''Energy and power'''54 B (9 words) - 16:31, 5 September 2008
- [['''Energy and Power'''_ECE301Fall2008mboutin]] '''Power calculation'''745 B (90 words) - 18:30, 5 September 2008
- Power of 2cos(t)405 B (54 words) - 17:12, 5 September 2008
- == POWER ==434 B (74 words) - 18:07, 5 September 2008
- ==Signal Energy and Power==339 B (38 words) - 18:19, 5 September 2008
- == Power == ==Power Example==601 B (94 words) - 18:35, 5 September 2008
- on the other hand, power of a signal can be calculated by: Let's now calculate the energy and power of the following signal: <math>y(t) = x^{2}</math> for <math>t_1 = 0</math574 B (92 words) - 18:32, 5 September 2008
- on the other hand, power of a signal can be calculated by: Let's now calculate the energy and power of the following signal: <math>y(t) = x^{2}</math> for <math>t_1 = 0</math574 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
- == Power ==480 B (73 words) - 10:41, 7 September 2008
- y1 = power(t1, 3); y2 = power(t2-2, 3);1 KB (217 words) - 08:58, 12 September 2008
- ===Signal power and energy ===2 KB (243 words) - 08:04, 21 November 2008
- 4. x[n] has minimum power among all signals that satisfy 1,2,3. from 4, power of x[n] = <math>\frac {1}{6} \sum_{n=0}^{5} |x[n]|^2 = \sum_{n=0}^{5} |{a_k672 B (117 words) - 13:08, 25 September 2008
- 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
- x[n] has min power among all signals that satisfy the above. Since the power is minimum all the other ak values are zero.938 B (182 words) - 07:09, 26 September 2008
- 4)x[n] has minimum power among all signals that satisfy the above properties. To minimize the power take <math>a_1=a_2=a_3=a_4=a_5=a_7=a_8=a_9=a_{10}=a_{11}=0</math>2 KB (426 words) - 15:21, 26 September 2008
- 4. x[n] has minimum power among all signals that satisfy 1,2,3. We want to minimize the power, so:719 B (121 words) - 16:44, 26 September 2008
- ...ot of 2 the signal provides the signal power of 1 unit when input into the power equation of specification (4).992 B (159 words) - 18:33, 26 September 2008
- 4.x[n] has minimum power among all the signals that satisfy 1,2,3. Power of x[n] is994 B (178 words) - 18:44, 26 September 2008
- 4. x[n] has minimum power among all the signals that satisfy 1,2,3 4. <math> \Rightarrow </math> To minimum the power, we set the rest of <math>a_k</math> to zero <br><br>1 KB (186 words) - 20:38, 26 September 2008
- ...how how to compute the Fourier transforms of CT and DT signals that have a power of absolute value (e.g. <math>(\frac{1}{2})^{|n|}</math>). First, I will sh1 KB (242 words) - 14:45, 24 October 2008
- ...es due to several advantages. An FM transmitter can always operate at peak power and any disruptions to or fading of the signal can be corrected at the rece1 KB (195 words) - 18:21, 17 November 2008
- ...range of z for which the z-transform converges. Since the z-transform is a power series, it converges when x[n]z−n is absolutely summable. Stated differen3 KB (537 words) - 17:27, 3 December 2008
- My favorite theorem is Cantor's theorem, which states that the power set of some set S has greater cardinality that that of S itself, whether S332 B (60 words) - 18:42, 2 September 2008
- ...ally makes sense to me as well. It is kind of playing with the order which power comes, that's the idea I get. ...take the inverse of both sides. And, can we bring the inverse in from the power? I am pretty sure it is ok to have the inverse of g^k is equal to the inver1 KB (264 words) - 17:12, 22 October 2010
- To find an order of an element, y in X, we just have to find a power of the modulo where it will repeat itself. So2 KB (339 words) - 17:04, 22 October 2010
- ...know if this found with a supercomputer or by distributing the processing power over a lot of PCs (like folding @ home)?3 KB (425 words) - 16:04, 12 October 2008
- 32 is the smallest non-trivial 5th power. 167 is the smallest number whose 4th power begins with 4 identical digits13 KB (2,062 words) - 13:16, 29 November 2010
- Monic means the leading coefficient is 1. Degree two means the highest power is 2. And irreducible means it doesn't factor interestingly. So each polyno1 KB (206 words) - 05:57, 13 November 2008
- ...ting of near and far points. Tuning this parameter controls the predictive power of the system. We have empirically optimized the value.13 KB (2,073 words) - 08:39, 17 January 2013
- * [[ES-3: Power Electronics and Electric Drives_Old Kiwi]]166 B (22 words) - 20:10, 9 March 2008
- | ? || ES-3 || ? || Power Electronics and Electric Drives2 KB (279 words) - 23:00, 9 March 2008
- * `Power Point slides on R programming <http://www.math.ntu.edu.tw/~hchen/Prediction2 KB (241 words) - 23:32, 11 March 2008
- ...the number of clusters he wants to split his data set into. It has to be a power of 2.903 B (157 words) - 01:07, 7 April 2008
- Capital Letters whose denominator is the highest power of its kind can be found directly as follows:4 KB (606 words) - 22:25, 1 May 2008
- ...<math>\Omega=[0,1]\frac{}{}</math>, the <math>\sigma-</math>algebra is the power set and counting measure.880 B (148 words) - 11:03, 22 July 2008
- Average Power:417 B (73 words) - 07:39, 16 June 2009
- Compute the energy and the average power of the following signal: ...energy is correct, but the derivation is wrong. The answer for the average power is wrong. Try not to skip so many steps, it will help you to make fewer mis6 KB (975 words) - 15:35, 25 February 2015
- [[Finite total energy means zero average power]]152 B (22 words) - 06:42, 19 June 2009
- [[Finite total energy means zero average power|If <math>E_\infty</math> is ''finite'', then <math>P_\infty</math> is ''zer561 B (96 words) - 07:39, 22 June 2009
- =Example of computation of Signal energy and Signal Power =2 KB (276 words) - 10:09, 16 September 2013
- Calculate the energy <math>E_\infty</math> and the average power <math>P_\infty</math> for the CT signal2 KB (408 words) - 17:20, 25 February 2015
- Calculate the energy <math>E_\infty</math> and the average power <math>P_\infty</math> for the CT signal ...ect, but you distributed the limit too early when you computed the average power, so your answer came out wrong. </span>1 KB (241 words) - 17:06, 25 February 2015
- Calculate the energy <math>E_\infty</math> and the average power <math>P_\infty</math> for the CT signal <span style="color:red"> The energy computation looks good. But in the power computation you distributed the limit too early and so your final answer is2 KB (415 words) - 17:05, 25 February 2015
- Calculate the energy <math>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
- ...only be used in case of an emergency and if for some reason (e.g, ECE-wide power outage) we are unable to use Rhea. Note also that this information will be1 KB (179 words) - 15:26, 27 August 2009
- ...ems with the server running Rhea (for example in the case of a campus-wide power outage), we will revert to email for communication. As Purdue's email acces2 KB (371 words) - 09:17, 10 August 2009
- ...only be used in case of an emergency and if for some reason (e.g, ECE-wide power outage) we are unable to use Rhea. Note also that this information will be826 B (132 words) - 09:01, 25 August 2009
- ...ems with the server running Rhea (for example in the case of a campus-wide power outage), we will revert to email for communication. As Purdue's email acces2 KB (370 words) - 09:01, 25 August 2009
- ...a_i ( X(z) z ^ {n-1})} \ </math> Coefficient of degree (-1) term on the power series expansion of <math> ( X(z) z ^ {n-1}) \ </math> <math> about a_i \ So inverting X(z) involves power series.2 KB (399 words) - 08:27, 23 September 2009
- 1.) Write X(z) as a power series2 KB (270 words) - 08:35, 23 September 2009
- ...oles a_i of X(z) z^{n-1}} \ </math> Coefficient of degree(-1) term in the power expansion of <math>X(z) z^{n-1} \ </math> about <math>a_i</math> So inverting X(z) involves power series2 KB (350 words) - 09:50, 23 September 2009
- ...ictions will asymptotically approach data obtained through experiment. The power of this technique, unavailable in other analogical spaces, is in part deriv27 KB (4,384 words) - 17:47, 26 October 2009
- ...ion; if you recall Calculus II well enough to do it on your own, then more power to you (I think you'd use partial fractions). But if you're like the rest o6 KB (1,067 words) - 18:07, 26 October 2009
- *[[PowerSeriesFormulas|Power Series]] (used in [[ECE301]], [[ECE438]])3 KB (294 words) - 15:44, 12 March 2015
- In order to explain the power of mathematics, I have called attention to the diversity of functions, the ...onclusion (therefore Y), we have absolutely no computational or conceptual power whatsoever, and our system is frozen in place. Statements of the form “if8 KB (1,289 words) - 11:13, 20 May 2013
- keywords: energy, power, signal ...yle="padding-right: 1em;" | [[signal_power_CT|(info)]] CT signal (average) power ||<math>P_\infty = \lim_{T \to \infty} \frac{1}{2T} \int_{-T}^{T} \left | x2 KB (307 words) - 14:54, 25 February 2015
- '''Power Series''' ...ckground-inline-policy: -moz-initial;" colspan="2" | Series of Reciprocal Power Series15 KB (2,182 words) - 18:14, 27 February 2015
- *[[Signal_power_energy_exercise_CT_ECE301S11|Compute the energy and power of a CT signal (practice problem)]] from [[ECE301]] *[[Signal_power_energy_exercise_DT_ECE301S11|Compute the energy and power of a DT signal (practice problem)]] from [[ECE301]]2 KB (293 words) - 05:21, 3 November 2011
- [[ PowerSeriesFormulas|Back to Power Series Formulas]]1 KB (196 words) - 10:07, 20 May 2013
- What are the power series for <math>zf'(z)</math> and <math>z^2f''(z)</math>? How can you com ...know how to attack problem 10.2? Also for problem 8.1, I am thinking the power series should just be <math>[(z-z_0)+z_0]^{k}</math>. Did anybody do it an4 KB (620 words) - 10:00, 9 November 2009
- ...ergy_exercise_CT_ECE301S11|Using Euler's formula to compute the energy and power of a CT complex exponential signal (practice problem)]] from [[ECE301]]2 KB (249 words) - 18:27, 23 February 2015
- 1) Average Power: By comparing the average power <math>P = \frac{1}{L} \sum_{n=1}^L x^2(n)</math>.5 KB (841 words) - 15:26, 10 April 2013
- 1) avg power2 KB (390 words) - 07:46, 14 November 2011
- 1) avg power2 KB (387 words) - 07:47, 14 November 2011
- ...an analytic function f allow convergence outside of the RoC for the normal power series of f?--[[User:Rgilhamw|Rgilhamw]] 19:50, 25 November 2009 (UTC) ...another ROC. Like the example in the book 1/(1-z) can be represented by a power series with negative powers of z but with ROC abs(z)>1 instead of less than3 KB (554 words) - 21:21, 3 December 2009
- The goal of this course is to utilize the supercomputing power of programmable PC graphics cards (Graphics Processing Units-GPUs) for scie592 B (78 words) - 12:37, 30 November 2009
- ...e biggest circle with the center at z = 0, since that is the center of the power series, such that there are no singularities enclosed within the circle.4 KB (631 words) - 11:08, 14 December 2009
- ...develop the knowledge with a course that uses it. To be successful: avoid power-hour sessions (unless that is your preferred learning style). Review vector6 KB (1,072 words) - 16:49, 10 December 2010
- ...g to me. It gets less interesting to me when you I am thinking in terms of power rings and what not. I prefer a lower level of abstraction. Numerical analys1 KB (205 words) - 19:24, 19 February 2010
- ...nd troubleshooting a circuit when changes are made in areas other than the power supply. Testing a Thevenin power supply under load should reveal that it is equivilent to the original. plac2 KB (272 words) - 08:51, 9 December 2010
- ...facilities or other popular targets of funding have less influence on the power of a Purdue degree. My dismissal of the importance of labs/buildings/equipm4 KB (665 words) - 04:53, 8 April 2010
- *Soldered power wires to shoot the Nerf gun from outside the gun1 KB (199 words) - 10:05, 20 April 2012
- === '''Now, we will use the power of induction to make some powerful assumptions, which will be proven in a b7 KB (1,168 words) - 07:19, 3 July 2012
- ...bout particle filter for object tracking, the more I get impressions about power of random sampling and Bayesian estimation. --[[User:han66|kyuseo]]6 KB (884 words) - 16:26, 9 May 2010
- ...r factor correction, and maximum power transfer. Instantaneous and average power. <br/><br/> ...ty to define and explain the meaning/function of charge, current, voltage, power, energy, R, L, C, the op amp, and the fundamental principles of Ohm's law,6 KB (873 words) - 17:02, 15 April 2013
- 1. Overview of basic ECE knowledge (power, voltage, etc.) and circuit components <br/><br/>8. Power consumption3 KB (359 words) - 16:57, 15 April 2013
- *[[PowerSeriesFormulas|Power Series]]2 KB (211 words) - 05:39, 26 September 2011
- ...d a straightforward procedure for computing it using [[PowerSeriesFormulas|power series]]. If you do not feel completely comfortable with the geometric seri2 KB (249 words) - 12:30, 8 September 2010
- Capital Letters whose denominator is the highest power of its kind can be found directly as follows:4 KB (602 words) - 13:49, 3 March 2015
- ..."> which the time-shifting is applied only to the unit step and not to the power of <math>a</math>. </span>2 KB (280 words) - 17:39, 19 September 2010
- power of t, say like so8 KB (1,396 words) - 10:38, 28 September 2010
- ...ometric series by substitution of variable from s to z. Also properties of power series with differential equation is useful.3 KB (456 words) - 13:44, 30 April 2015
- ...is expression are positive, but the signal x[n] is expressed as a negative power of e, so you cannot compare just yet. -pm </span> ...the fact that <math>e^{ 2 \pi n j}=1</math> to rewrite x[n] as a positive power of e. (Just add <math>2 \pi n j</math> to the exponent of e). -pm </span5 KB (766 words) - 14:22, 21 April 2013
- == 2. Power series ==1 KB (243 words) - 13:47, 30 April 2015
- ...using either the Taylor series formula or a [[PowerSeriesFormulas|table of power series formulas]]. The power series expansion of the given function is:2 KB (273 words) - 12:49, 26 November 2013
- *[[Signal power energy exercise CT ECE301S11|Compute the power and energy of a complex (CT) exponential]] *[[Calculating_E_infinity_and_P_infinity_-_Jonathan_Chu_(Chu7)|Compute the power and energy of t times a step function]]1 KB (207 words) - 16:04, 25 February 2015
- =Continuous-Time (Average) Signal Power= This is a hub page to link other pages having to do with the power of a continuous-time signal1 KB (220 words) - 10:49, 21 April 2015
- Maximum Power Transfer774 B (100 words) - 10:06, 4 March 2015
- We can expand the exponential as a power series (in <span class="texhtml">ω</span> about <span class="texhtml">ω =4 KB (657 words) - 11:42, 30 November 2010
- *[[ECE 600 General Concepts of Stochastic Processes The Power Spectrum|The Power Spectrum]]525 B (66 words) - 13:11, 22 November 2010
- What is the power spectral density of <math class="inline">\mathbf{Y}\left(t\right)</math> ?10 KB (1,713 words) - 07:17, 1 December 2010
- =3.3 The Power Spectrum= '''Definition.''' Power spectrum3 KB (492 words) - 11:53, 30 November 2010
- ...ght)</math> acts as a crude low-pass filter that attenuates high-frequency power.3 KB (498 words) - 07:16, 1 December 2010
- (b) What is the power spectral density of <math class="inline">\mathbf{Y}\left(t\right)</math> ? The power spectral density of a real, wide-sense stationary random process <math clas22 KB (3,780 words) - 07:18, 1 December 2010
- (b) What is the power spectral density of \mathbf{Y}\left(t\right) ?12 KB (2,205 words) - 07:20, 1 December 2010
- ...ncepts of Stochastic Processes The Power Spectrum|(More information on the Power Spectrum)]].7 KB (1,192 words) - 08:22, 27 June 2012
- ...-moz-initial; -moz-background-inline-policy: -moz-initial;" colspan="2" | Power 1 \mbox{ horse power (HP) } = 550 \mbox{ ft lbwt/s } = 33.000 \mbox{ ft lbwt/min. } = 745.7 \mbo7 KB (757 words) - 14:38, 26 February 2015
- ...policy: -moz-initial; font-size: 110%;" colspan="2" | series of reciprocal power series4 KB (430 words) - 13:42, 22 November 2010
- Could you please merge this table into the [[PowerSeriesFormulas|Power Series Formula table]]? -pm ...ckground-inline-policy: -moz-initial;" colspan="2" | Series of Reciprocal Power Series9 KB (1,144 words) - 09:38, 23 November 2010
- ...}</math> . The event space <math class="inline">\mathcal{F}</math> is the power set of <math class="inline">\mathcal{S}</math> , and the probability measur14 KB (2,358 words) - 08:31, 27 June 2012
- ...right)=\mathbf{X}\left(t\right)-\mathbf{Y}\left(t\right)</math> , find the power spectral density <math class="inline">S_{\mathbf{Z}}\left(\omega\right)</ma14 KB (2,439 words) - 08:29, 27 June 2012
- ...e problem, especially during exams. Although the polynomial is to the power of three, do not panic. Recall some lessons from MA165. To solve 18 KB (2,963 words) - 07:22, 3 July 2012
- === '''Now, we will use the power of induction to make some powerful assumptions, which will be proven in a b5 KB (883 words) - 21:12, 7 December 2010
- === '''Now, we will use the power of induction to make some powerful assumptions, which will be proven in a b5 KB (882 words) - 21:30, 7 December 2010
- == 2. Power series ==1 KB (191 words) - 18:52, 16 December 2010
- *Signal Power and Energy **[[Signal power energy exercise CT ECE301S11|Compute the power and energy of the following CT signal]]18 KB (2,485 words) - 10:36, 11 November 2011
- ...for a DT signal) and discussed the kind of questions related to energy and power one could expect on the test. We continued with a description of the three * Solve the following practice problems on signal power and energy. (This should be very quick!)2 KB (254 words) - 13:24, 31 January 2011
- [[Category:power]] Topic: Signal Energy and Power4 KB (595 words) - 11:01, 21 April 2015
- Topic: Signal Energy and Power Compute the energy <math>E_\infty</math> and the power <math>P_\infty</math> of the following discrete-time signal2 KB (317 words) - 16:18, 26 November 2013
- Compute the energy <math class="inline">E_\infty</math> and the power <math class="inline">P_\infty</math> of the following signals.3 KB (478 words) - 05:17, 25 January 2011
- ...signal has '''finite energy''', then we expect that it has '''zero average power'''.<br><br> b) ...he signal has '''infinite energy''', then we expect that it has '''average power that is greater than zero'''.<br><br> c)9 KB (1,579 words) - 16:57, 15 February 2011
- *[[PowerSeriesFormulas|Power Series]]890 B (101 words) - 17:30, 21 April 2013
- *Signal [[Signal_power_CT|Power]] and [[Signal_energy_CT|Energy]] in CT **[[Signal power energy exercise CT ECE301S18 exponential|Compute the power and energy of a (CT) exponential]]12 KB (1,768 words) - 10:25, 22 January 2018
- ...as causing even just the monitor display to take 20% of the CPU processing power. I tried to play some test *.mpg videos in VLC which didn't even play. Some ...ill be plugged into the wall as we do not have time to worry about battery power for all components at this point. We tested it out and only one tread was m33 KB (5,764 words) - 11:55, 10 December 2011
- #the power supply for the boards. ...-script for the pandaboard to get the pandaboard set-up automatically when power is supplied to it. e.g. connect to internet, email IP address to user.11 KB (1,656 words) - 19:34, 12 December 2011
- ...[ECE362]] motor driver lab to be sure that they could handle the amount of power we put through them. Went to radio shack to get the parts (Darlington NPN t25 KB (4,232 words) - 09:05, 13 January 2012
- ...e concluded that using the formula essentially boils down to comparing the power series of the z-transform with the formula for the z-transform (the trick w1 KB (192 words) - 06:20, 11 September 2013
- The power series expansion of the given function is The power series expansion of the given function is9 KB (1,625 words) - 05:33, 14 September 2011
- ...the Spring semester. Please focus on evaluating the trade-off between power requirements, sampling rate, and layout size that was made, and check&2 KB (244 words) - 09:48, 21 September 2011
- *[[Power, Storage, and Management]]818 B (110 words) - 07:33, 2 December 2011
- *[[PowerSeriesFormulas|Power Series]]2 KB (212 words) - 05:44, 26 September 2011
- ...the math operation that can be carried out in one go. Also the larger the power cost. Bear in mind the internet is 32 bits (addresses and datatypes) s ...s have no floating point math hardware and those that do often pay a heavy power price for it. Consider whether you can avoid most floating point math in fa4 KB (708 words) - 12:58, 27 September 2011
- ::#Calculate the average power of the signal with a window size of 10. ::#Plot the signals, DTFTs, Average power and compare the plots.7 KB (1,108 words) - 06:02, 23 September 2014
- *Lecture 4: "Pre Silicon Verification Techniques used on IBM Watson's Power 7 Processor", by Joseph Gerwels, Manager, STG Chip/System EOA Simulation IB2 KB (294 words) - 06:07, 2 September 2013
- ...imum_power_transfer_linear_circuits_ECE201_S15_Peleato|Slecture on Maximum Power Transfer]]642 B (81 words) - 10:17, 4 March 2015
- ...ontains a inner product. As a side note, if the vector space is to the nth power it is refered to as an [http://mathworld.wolfram.com/EuclideanSpace.html] '4 KB (724 words) - 09:09, 11 April 2013
- ...re is supreme and that the human is only a small element in its astounding power and beauty. There was no need to understand nature- we are too little to un6 KB (928 words) - 10:46, 15 December 2011
- Power Electronics in Industry ...p://sandc.com/products/power-quality/default.asp S&C Electric Company: Power Quality]399 B (50 words) - 08:03, 17 January 2012
- ...to change the variable in a power series when necessary. For example, if a power series has xk−1 and you need it to be xk , you can replace k by k + 1 thr16 KB (2,679 words) - 06:52, 21 March 2013
- ...n-time is subjected to multitude of factors, most explicitly the computing power of the hardware - if I use an intel i-5 core processor in lieu of i-3, the5 KB (765 words) - 20:07, 28 January 2012
- ...example, when I teach differentiation, I do not just hand my students the Power Rule. We find many derivatives using the limit definition and get lots of9 KB (1,523 words) - 15:22, 30 January 2012
- ...example, when I teach differentiation, I do not just hand my students the Power Rule. We find many derivatives using the limit definition and get lots of9 KB (1,553 words) - 06:14, 17 July 2012
- ...ircuit board was used as a part of the testing and validation project of a power management chip. In my junior year, I did some research in financial engine4 KB (563 words) - 12:21, 9 February 2012
- ...ting of near and far points. Tuning this parameter controls the predictive power of the system. We have empirically optimized the value.13 KB (2,098 words) - 11:21, 10 June 2013
- ...(the CD player I was using to test it nearly exploded under the resulting power surge). These projects have always been a hobby of mine, and are what inspi4 KB (666 words) - 12:13, 9 February 2012
- | [[Media:Walther_MA375_01March2012.pdf| Power Series and Generating Functions]]3 KB (418 words) - 06:38, 21 March 2013
- *Power and Energy Devices and Systems (formerly Energy Sources and Systems) **Question 3: Power Electronics and Electric Drives8 KB (952 words) - 22:00, 1 August 2019
- | [Energy and Power Computations: [[Computation_of_Energy_and_Power_of_a_DT_signal|DTGeometric4 KB (534 words) - 19:10, 4 December 2018
- ...}</math> . The event space <math class="inline">\mathcal{F}</math> is the power set of <math class="inline">\mathcal{S}</math> , and the probability measur5 KB (735 words) - 01:17, 10 March 2015
- ...right)=\mathbf{X}\left(t\right)-\mathbf{Y}\left(t\right)</math> , find the power spectral density <math class="inline">S_{\mathbf{Z}}\left(\omega\right)</ma5 KB (726 words) - 10:35, 10 March 2015
- ...ncepts of Stochastic Processes The Power Spectrum|(More information on the Power Spectrum)]].4 KB (638 words) - 10:34, 13 September 2013
- *[[PowerSeriesFormulas|Power Series]]2 KB (236 words) - 11:24, 21 September 2012
- ...hat the Laplace transform really is: a continuous analogue of the discrete power series. (1) '''Power series = discrete summation'''3 KB (512 words) - 15:14, 1 May 2016
- *Power and energy calculations: 1.3abdf699 B (95 words) - 10:13, 13 June 2016
- **[[PowerSeriesFormulas|Power Series]]6 KB (799 words) - 10:10, 15 May 2013
- ;'''Q - Does anyone have any insight in determining the power spectral density of y? I've read through the links and listened to older l ;'''Q - Using the above link to calculate the power spectral density still does not help me. How do you go from the difference5 KB (957 words) - 08:11, 9 April 2013
- ...a list of the most important power series: [[PowerSeriesFormulas| Table of Power Series Formulas]] (from Rhea's Collective [[Collective_Table_of_Formulas|Ta3 KB (341 words) - 09:59, 5 February 2013
- ...t an intuitive understanding of what the function represent (i.e. expected power for frequency f component of the random signal.)4 KB (545 words) - 07:12, 24 April 2013
- ...n above, each integer (each 1 in this case) represents a product (you mean power? )of 2. Starting from the right to the left, the exponent of 2 increments f4 KB (606 words) - 07:31, 26 February 2014
- ...annel MOSFETs which means it is only connected to ground. Thus an external power source of 5 volts is connected to the output with a pull-up resistor connec OD NAND gates are different than ordinary NAND gates. They do not provide power and only provide a possible connection to ground, as mentioned above. The2 KB (269 words) - 07:32, 26 February 2014
- #identify sources of dynamic power dissipation #plot power dissipation of CMOS logic circuits as a function of operating frequency3 KB (498 words) - 08:36, 21 August 2013
- ...of the pulse is an odd number, such as the case depicted in figure 2, the power of the exponent in the Fourier transform is a whole number and the periodic ...th>n=0</math> and align individual impulses with integers. Notice that the power of the exponent in the Fourier transform is a fraction. The psinc function10 KB (1,726 words) - 07:26, 26 February 2014
- **[[PowerSeriesFormulas|Power Series]]4 KB (480 words) - 18:57, 10 December 2013
- ...right of equal vote vs weighted voting: historical events and the Banzhaf power index]]4 KB (588 words) - 18:11, 14 December 2015
- #identify sources of dynamic power dissipation #plot power dissipation of CMOS logic circuits as a function of operating frequency3 KB (504 words) - 07:31, 26 February 2014
- ...rument (e.g., Wavetek RMS Voltmeter) to measure the power of a signal. The power, P in watts, and voltage, V in volts, of the signal are related according t <math> \text{Power reading in dBm}=\text{Voltage of signal in dBV} </math>.2 KB (392 words) - 10:08, 15 January 2014
- ...parties, and these 2 parties control a large majority of the government's power. This is a fairly loose definition, but in most cases it is relatively clea10 KB (1,684 words) - 19:56, 1 December 2013
- ...first founded. However several of them would have created an imbalance of power between the legislative and executive branch. Even the idea of popular vote ...ion. They were afraid a tyrant could manipulate public opinion and come to power. The electoral college was created so there was a buffer between the popula13 KB (2,052 words) - 07:52, 30 November 2013
- ...right of equal vote vs weighted voting: historical events and the Banzhaf power index''' ==281 B (40 words) - 16:21, 7 September 2013
- ...right of equal vote vs weighted voting: historical events and the Banzhaf power index = ...tem. One of the most common ways to determine power is through the Banzhaf Power Index. A study of this index is essential to understanding weighted voting24 KB (3,875 words) - 20:12, 30 November 2013
- [[Image:Green26 ece438 hmwrk3 power series.png|480x320px]]8 KB (1,313 words) - 15:19, 1 May 2016
- The power series expansion of the given function is The power series expansion of the given function is10 KB (1,662 words) - 13:34, 9 September 2013
- ...ly vetoed by President Washington - in the very first exercise of the veto power by President of the United States. Hamilton's method was adopted by the US ...crease by 1. This gives more power to larger states more often than giving power to small states.6 KB (905 words) - 06:56, 29 November 2013
- ...''S'' is uncountable. We may want an event space that is smaller than the power set of such an ''S''. We will examine this in more detail in our discussion ...sets of ''S'' is a valid <math>\sigma</math>-field. This set is called the power set denoted <br/>20 KB (3,448 words) - 12:11, 21 May 2014
- ...' where F = ''P''('''R''')-B('''R'''), i.e. the set difference between the power set of '''R''' and its Borel field. So F ∉ B('''R'''). Then, <math>X(\ome7 KB (1,194 words) - 12:11, 21 May 2014
- Charles Richard Leedham-Green. "The Structure of Groups of Prime Power Order." Retrieved from [http://books.google.com/books?id=34khoLiyP_QC&lpg=P12 KB (2,043 words) - 18:00, 1 December 2013
- 3. Use the 8922A voltmeter to determine the RMS voltage (or equivalently, the power) of a signal. 1. Define average power and root-mean-square value for deterministic signals.14 KB (2,228 words) - 12:03, 15 January 2014
- ...ctrocardiogram signals are very susceptible to interference from the 60 Hz power present in the room where the patient is being monitored. You are going to3 KB (480 words) - 09:13, 27 September 2013
- ..., if X = V<math>^2</math>, where V is the voltage (so X is proportional to power), then ''R''=[0,∞), but we still define <math>f_X(x)</math> ∀x ∈ ''R'15 KB (2,637 words) - 12:11, 21 May 2014
- single graph and would demonstrate that the power series7 KB (1,302 words) - 04:58, 23 October 2013
- **[[PowerSeriesFormulas|Power Series]]4 KB (471 words) - 19:34, 9 February 2015
- ...[https://en.wikipedia.org/wiki/Special:Random everything]. With this great power, however, comes great responsibility. Ultimately, you are still responsible4 KB (658 words) - 08:47, 1 November 2013
- ...oming May and work at Schneider Electric, a company that mainly focuses on power distribution. Looking back at my college career, while steps away from call3 KB (495 words) - 09:29, 7 November 2013
- ...here is a fault on these days. The additive white Gaussian two-sided noise power spectral density on the wires is <math>N_0</math>/2 = 5x<math>10^{-6}</math (d) Suddenly, the system is fixed and works perfectly, but now the clocked power to the sensor begins to fail so that half of the weeks the sensor works per15 KB (2,507 words) - 01:05, 5 November 2013
- ...here is a fault on these days. The additive white Gaussian two-sided noise power spectral density on the wires is <math>N_0</math>/2 = 5x<math>10^{-6}</math (d) Suddenly, the system is fixed and works perfectly, but now the clocked power to the sensor begins to fail so that half of the weeks the sensor works per17 KB (2,710 words) - 10:07, 5 November 2013
- The denominator is a polynomial with power of 6. In this case, one will get 6 roots from the equation that the polynom14 KB (2,070 words) - 19:28, 18 November 2013
- ...on of t, they both must be equal to the same constant function. The fourth power of beta just makes the solution to the 4th order ODE easier to write out.6 KB (1,102 words) - 19:16, 19 November 2013
- ...of the United States created a system in which the American people had the power and responsibility to select their leader. To understand how the President “''Article II<br>Section 1. The executive power shall be vested in a President of the United States of America. He shall ho13 KB (1,996 words) - 16:23, 1 December 2013
- ==The Power Spectrum== '''Definition''' <math>\qquad</math> The '''power spectral density''' or '''PSD''' of a WSS random process X(t) is the Fourie8 KB (1,476 words) - 12:13, 21 May 2014
- --We can define power series ...t two series. Is Hadamard's formula the way to go? Or should we drop these power series altogether and just deal with series of complex numbers?4 KB (728 words) - 09:33, 31 January 2014
- ...uently its resources (such as time it takes to compute, the space/RAM, and power consumption). .... However, a polynomial time algorithm with computational steps grows as a power of the number of variables, rather than exponentially was discovered by Rus13 KB (2,101 words) - 13:55, 27 April 2014
- ...erms as the derivative of another series? We know that the derivative of a power series will have the same radius of convergence as the original series. Sho ...ies which converges on a disc of positive radius. The coefficients of this power series relate to the quantities in question. How precise does this "sharper4 KB (620 words) - 13:10, 18 February 2014
- **[[PowerSeriesFormulas|Power Series]]6 KB (765 words) - 13:35, 4 August 2016
- .... Serge Lang's ''Complex Analysis'' has a nice section dealing with formal power series.2 KB (363 words) - 14:54, 25 August 2014
- We also define the '''power function''' of a test <math>\phi</math> as ...</math> and (<math>\alpha_2</math>, <math>\beta_2</math>) be the level and power of a test <math>\phi_2</math>. Define the test15 KB (2,306 words) - 10:48, 22 January 2015
- ...>''P''<sub>''D''</sub></span>, also known as hit rate or detection rate or power, is the probability of <math>\ \phi(x)=1 \ </math> when Ha is indeed in eff ...ypothesis, Neyman-Pearson Lemma proves that it is possible to maximize the power while keep fixed size of the test. If we define the likelihood ratio L(x) a11 KB (1,823 words) - 10:48, 22 January 2015
- ...raining becomes popular with the advance of Machine Learning and computing power that can afford to expensive computatioal costs.16 KB (2,400 words) - 23:34, 29 April 2014
- ...raining becomes popular with the advance of Machine Learning and computing power that can afford to expensive computatioal costs. Such a trainable system is18 KB (2,852 words) - 10:40, 22 January 2015
- ...already great, it would be even better if author can also briefly explain Power Function and Size of LRT.2 KB (283 words) - 16:37, 12 May 2014
- *The Almighty Power [[PowerSeriesFormulas|Series]] ==The Almighty Power [[PowerSeriesFormulas|Series]]==9 KB (1,632 words) - 18:19, 27 February 2015
- ...ve this with the induction principle stated above, let us first define the power set: Definition: The set of the subsets of a set A is called the power set of A, and5 KB (846 words) - 03:54, 16 May 2014
- ...= \sum_{n=0}^\infty x^{n!}</math>. Show the radius of convergence of this power series is <math>1</math>. Let <math>u</math> be a root of unity. Show that ...ath> for some <math>A</math> and sufficiently large <math>R</math>. As the power of <math>R</math> is negative, the limit as <math>R \to \infty</math> is ze10 KB (1,792 words) - 05:43, 10 August 2014
- Electrocardiogram signals are very susceptible to interference from the 60 Hz power present in the room where the patient is being monitored. You are going to3 KB (486 words) - 06:19, 22 September 2014
- ...he bidirectional nature of Fourier transform pairs would give even greater power to your examples.5 KB (843 words) - 05:30, 15 October 2014
- ...m. We then extended this to the "radix-two FFT algorithm" for when N is a power of two.2 KB (248 words) - 05:29, 15 October 2014
- ...In his 28 years of Working Group and Subcommittee leadership with the IEEE Power & Energy Society (PES) Substations Committee, John led seven Working Groups ...was awarded the IEEE Millennium Medal in 2000, the IEEE PES Excellence in Power Distribution Engineering Award in 2002, and the IEEE PES Substations Commit4 KB (570 words) - 12:13, 9 October 2014
- The denominator is a polynomial with power of 6. In this case, one will get 6 roots from the equation that the polynom6 KB (1,031 words) - 11:27, 29 November 2014
- *Ohm, power, and sign conventions *Maximum Power Transfer (Resistive networks)8 KB (1,126 words) - 11:37, 8 May 2015
- ...enters it. Because <math>\mu(\tau)</math> is always greater than zero, the power of the exponential will always be negative. This equation can be rearranged7 KB (1,072 words) - 19:25, 9 February 2015
- ...}</math> . The event space <math class="inline">\mathcal{F}</math> is the power set of <math class="inline">\mathcal{S}</math> , and the probability measur4 KB (698 words) - 01:35, 10 March 2015
- ...right)=\mathbf{X}\left(t\right)-\mathbf{Y}\left(t\right)</math> , find the power spectral density <math class="inline">S_{\mathbf{Z}}\left(\omega\right)</ma5 KB (939 words) - 10:37, 10 March 2015
- * It would be nicer to illustrate that the power spectral density of <math>\mathbf{X}</math>, <math>S_x(\omega)</math>, is <8 KB (1,336 words) - 01:53, 31 March 2015
- [[Category:power]] Topic: Signal Power2 KB (290 words) - 15:29, 21 April 2015
- =Maximum Power Transferred Practice Problem= Topic: Maximum Power Transferred2 KB (328 words) - 15:01, 26 April 2015
- ...s.pdf Complex Number Review] / [[Media:signal_energy_power.png| Energy and Power of Signals]]6 KB (748 words) - 21:35, 10 August 2015
- FFT will be very useful since its power for rapid calculation of Discrete Fourier Transform can greatly increase th4 KB (546 words) - 19:34, 29 November 2015
- FFT will be very useful since its power for rapid calculation of Discrete Fourier Transform can greatly increase th3 KB (417 words) - 04:38, 29 November 2015
- *5. page 52, The power of 'x' should be r and n-r for 'y' in binomial expansion of(x+y)^n.(Theorem4 KB (722 words) - 18:20, 4 May 2016
- Morad, R. (2015). Swarms of Humans Power A.I. Platform.14 KB (2,177 words) - 11:28, 24 April 2016
- ...is the winner of the tournament. The number of teams t must be equal to a power of 2, defined to be t = 2^n for n = 1,2,3… For example, a single-eliminat ...tournament. Eliminations result in significant rounds, each of which is a power of 2: Sweet Sixteen (2^4), Elite Eight (2^3), and Final Four (2^2). The Fin6 KB (1,066 words) - 13:06, 24 April 2016
- Analyzing the recurrence tree for <math>n</math> an exact power of <math>b</math>, all cases of the proof rely on a <math>\Theta</math> bou5 KB (766 words) - 22:18, 7 March 2016
- ...with graphs, a new star starts to shine on the firmament of human thinking power.13 KB (2,051 words) - 22:06, 24 April 2016
- Electrocardiogram signals are very susceptible to interference from the 60 Hz power present in the room where the patient is being monitored. You are going to3 KB (460 words) - 09:11, 7 September 2016
- ...of the noise and signal are different. Signal generally has higher average power. Based on this feature, we can implement an if-else statement to decide whe ...he frequency filter will attenuate the overall noise amplitude.The average power of noise will decrease, so that the noise gate can better erase the noise s8 KB (1,120 words) - 00:27, 26 November 2016
- ...-transform requires some mathematical manipulations that is related to the power series and geometric series. More on this will be discussed in the next sec10 KB (1,800 words) - 10:41, 27 November 2016
- ...Purdue Orbital rocketry team. I designed this board to test the range and power draw of our comms system and threw on a relay and microcontroller so that i ...APRS will be an essential part of the system, because most radios in this power level (0.5 - 1W transmission) can only achieve a few dozen miles tops trans11 KB (1,666 words) - 02:18, 30 November 2016
- ...o play “realistic astromech droid sounds” [2], with limited processing power as well as limited storage capacity. In our case, the goal was to create an8 KB (1,282 words) - 01:02, 28 November 2016
- Electrocardiogram signals are very susceptible to interference from the 60 Hz power present in the room where the patient is being monitored. You are going to4 KB (658 words) - 14:50, 1 February 2017
- ...s. As transistor cost decreased and density increased, growth in computing power allowed effects and instruments to be used in live performances with only a6 KB (1,048 words) - 16:58, 24 April 2017
- ...complex plane. Much like the Taylor Series it is a sum of a variable to a power multiplied by a corresponding coefficient. However, the Laurent Series also This series describes any smooth function as a sum of an infinite power series. The area this series accurately describes the function is the '''re6 KB (931 words) - 23:40, 23 April 2017
- Power Cepstrum of signal <math> =\left|{\mathcal {F}}^{-1}\left\{{\mbox{log}}(\le ...nd the similarity between two signals can be determined by comparing their power cepstrums. For a security application users will be able to program voice p4 KB (728 words) - 22:10, 23 April 2017
- ...ples of the sound at each point. A FFT is then used to plot and graph the power spectral density vs frequency at that location. By playing pink noise (soun2 KB (298 words) - 00:06, 24 April 2017
- and its associated power spectral density <math>S_x(e^{j\mu}, e^{j\nu})</math>. e) Calculate <math>S_y(e^{j\mu},e^{j\nu})</math>, the power spectral density of <math>y(m,n)</math>3 KB (566 words) - 16:39, 18 May 2017
- And the power spectral density can be obtained using <math>R_x</math>, and it is 1. e) The power spectral density can be calculated from that of input signal.5 KB (887 words) - 11:08, 13 August 2018
- ...e fundamental mode, use the 'I‘EM approximation to determine the average power loss per unit length and width b in a real waveguide having plates of condu4 KB (646 words) - 20:27, 3 June 2017
- ...me that the Glass plate is thick. Give the answer for fraction of incident power that reflected from the interface , in other words find the reflectance R.3 KB (544 words) - 12:36, 4 June 2017
- ...64} = \frac{64-24}{1536} = \frac{40}{1536}\approx \frac{1}{40} \text{ less power reflected}</math>789 B (100 words) - 12:32, 4 June 2017
- c) power due to current within volume; usually due to conduction current (<math>\bar d) total power flowing \underline{into} a closed surface <math> S </math> with volume <mat4 KB (752 words) - 17:19, 11 June 2017
- Order refers to the power of each term.15 KB (2,678 words) - 04:42, 14 February 2020
- ...tants. Strictly, the theorem is derived from the matrix exponential of the power series for <math>e^A</math>, while we don't prove it here, but use a more i -1+i \end{bmatrix}] </math>, by the property of power,9 KB (1,504 words) - 23:12, 21 November 2017
- ...tants. Strictly, the theorem is derived from the matrix exponential of the power series for <math>e^A</math>, while we don't prove it here, but use a more i -1+i \end{bmatrix}] </math>, by the property of power,8 KB (1,377 words) - 04:04, 19 November 2017
- ...ower frequency levels, the main "chirp" band is represented by the highest power frequency levels. The band increases steadily frequency wise, and also doub Similar to the spectrogram of chirp1, the power frequency levels are represented by the color spectrum. The "chirp" band is3 KB (524 words) - 19:45, 2 December 2017
- | Examples of Energy and Power Computations: [[Signal_power_energy_exercise_CT_ECE301S18_sin|1]] [[Signal_4 KB (618 words) - 12:12, 1 May 2018
- currently Power and Energy Devices and Systems (PE)1 KB (182 words) - 13:47, 16 January 2018
- currently Power and Energy Devices and Systems (PE)1 KB (159 words) - 00:52, 11 January 2018
- Recall by the Quotient Rule or the Chain Rule + Power Rule that <math>\frac{d}{dt} \frac{a}{\sum_{k=0}^K b_k t^k} = \frac{-a\sum_4 KB (701 words) - 18:58, 26 January 2018
- currently Power and Energy Devices and Systems (PE)1 KB (172 words) - 18:21, 16 January 2018
- Recall by the Quotient Rule or the Chain Rule + Power Rule that <math>\frac{d}{dx} \frac{a}{bx + c} = \frac{-ab}{(bx + c)^2}</mat4 KB (749 words) - 14:41, 26 January 2018
- The fourth line follows from the third using the Power Reduction Identity (given for sine and cosine) and the Double Angle Identit4 KB (593 words) - 13:37, 17 January 2018
- [[Category:power]] Topic: Signal Energy and Power2 KB (373 words) - 10:09, 22 January 2018
- Power and Energy Devices and Systems (PE)1 KB (166 words) - 16:00, 19 January 2018
- Recall by the Quotient Rule or the Chain Rule + Power Rule that <math>\frac{d}{dx} \frac{a}{bx + c} = \frac{-ab}{(bx + c)^2}</mat7 KB (1,289 words) - 14:42, 26 January 2018
- [[Category:power]] Topic: Signal Energy and Power2 KB (229 words) - 10:22, 22 January 2018
- Topic: Signal Energy and Power Compute the energy <math>E_\infty</math> and the power <math>P_\infty</math> of the following discrete-time signal2 KB (263 words) - 11:13, 22 January 2018
- Power and Energy Devices and Systems (PE)1 KB (152 words) - 14:54, 26 January 2018
- Power and Energy Devices and Systems (PE)1 KB (230 words) - 13:06, 29 January 2018
- ...nsferred to the coupling field is the integral over time of the electrical power, namely the associated voltage drop <math>e_{f,j} = \frac{d \lambda_j}{dt}<7 KB (1,270 words) - 14:25, 12 February 2018
- Power and Energy Devices and Systems (PE)1 KB (153 words) - 19:26, 12 February 2018
- In order to transfer power between the electrical and mechanical systems with a magnetic coupling fiel4 KB (667 words) - 14:50, 19 February 2018
- Power and Energy Devices and Systems (PE)1 KB (221 words) - 14:43, 20 February 2018
- Power and Energy Devices and Systems (PE)3 KB (573 words) - 14:56, 20 February 2018
- Power and Energy Devices and Systems (PE)4 KB (699 words) - 17:36, 20 February 2018
- Power and Energy Devices and Systems (PE)2 KB (328 words) - 17:45, 20 February 2018
- All three signals listed above require filtering of background noise (power source, other biosignals, etc.) and often require conversion from continuou12 KB (1,702 words) - 20:48, 9 April 2018
- Compute the energy <math class="inline">E_\infty</math> and the power <math class="inline">P_\infty</math> of the DT exponential signal below:1 KB (161 words) - 19:48, 1 December 2018
- ...}</math> Fibonacci number. To begin, we represent <math> F(x) </math> as a power series with coefficients equal to the <math> n^{th}</math> Fibonacci number ...ms of <math> n </math>. Since the <math> n^{th} </math> coefficient of the power series is equal to the <math> n^{th} </math> Fibonacci number by constructi8 KB (1,360 words) - 23:28, 2 December 2018
- Compute the energy <math class="inline">E_\infty</math> and the power <math class="inline">P_\infty</math> of this DT signal:1 KB (196 words) - 19:39, 1 December 2018
- Compute the energy and the power of the CT sinusoidal signal below:1 KB (178 words) - 19:48, 1 December 2018
- ..., the masking threshold of the sample is found by using an estimate of the power density spectrum, P(k). P(k) is computed by using a 1024-point FFT.5 KB (752 words) - 17:40, 2 December 2018
- 1. Estimate the basic need for human, such as demand for food, water, power, transportations.815 B (112 words) - 22:56, 2 December 2018
- ...ke it an implied power that comes from this clause. Since Congress has the power to determine the method of apportionment, the only issue that needs to be c5 KB (726 words) - 23:07, 2 December 2018
- ''title('Power spectral density');'' Power spectral density shows the strength of signal in frequency domain. This cou3 KB (555 words) - 22:02, 2 December 2018
- ...improper, as this assigns numbers to groups, taking away individual voting power, not accounting for actual voting outcome caused by disparities in populati3 KB (410 words) - 00:11, 3 December 2018
- This leads to the conclusion that Congress has the power to adopt the Hill method, and would be justified in doing so thanks to the3 KB (452 words) - 00:27, 3 December 2018
- ...ications as low-power as possible. What can the scientist do to reduce his power consumption? To reduce the required transmit power, the sampling rate of the speech signal must be reduced, or ''downsampled''16 KB (2,611 words) - 14:11, 12 November 2019
- An analytical function is a function that is locally given by a convergent power series at every point in its domain. This means they are continuous and dif8 KB (1,390 words) - 16:12, 6 December 2020
- ...r the line, two for the square, and three for the cube. Therefore, if this power was calculated for the Sierpiński Triangle, it would be about 1.585, which24 KB (3,663 words) - 01:01, 7 December 2020
- ...context-sensitive grammar, the computational complexity is about the sixth power of the length of the chosen sentence. Therefore, in the 1970s, even IBM, wh ...od was not expected to succeed at first, with the improvement of computing power and the continuous increase of the amount of text data, natural language pr8 KB (1,251 words) - 00:22, 6 December 2020
- ...w different ways to represent modular forms, but the most common is with a power series. ...tein. Instead of going from 0 to infinity like a one-variable series, this power series represents the sum of the values of every possible integer combinati11 KB (1,765 words) - 00:19, 7 December 2020
- They firstly added a power of k (a random number), and the equation is now like this: This means if we do m(message) to the power of 𝜙⋅k+1 and then mod it to n, we can get the same m(message) back! Ex18 KB (3,085 words) - 15:13, 7 December 2022
- ...the Blockchain, you'd need have control of 51% of the total computational power on the entire network. In the early days when the blockchain was small, thi ...er (careful readers will note that this is essentially "staking" computing power against the future reward of mined cryptocurrency) on mining. As a result,24 KB (3,899 words) - 10:51, 1 December 2022
- ...of large prime numbers, which is sufficient to guard against the computing power that an attacker may have access to today, but poses a vulnerability<sup>3< ...ture in which it is conventional for any personal computer to have quantum power and everyone can have access to it.31 KB (5,039 words) - 17:31, 6 December 2022
- This can be rearranged to form a binomial of power <math>\frac{1}{2}</math>:18 KB (2,815 words) - 11:22, 8 December 2022
- Most algorithms that power AI art use data pulled from the internet, and the internet is a place fille15 KB (2,564 words) - 11:25, 29 November 2022
- ...mpletely broken, vulnerabilities only become more of an issue as computing power increases. Our smartphones are more powerful than computers of two decades24 KB (3,746 words) - 15:31, 10 December 2022
