Create the page "3 Cases" on this wiki! See also the search results found.
- ...X_5[0]e^{j2\pi n0/5} + X_5[1]e^{j2\pi n1/5} + X_5[2]e^{j2\pi n2/5} + X_5[3]e^{j2\pi n3/5} + X_5[4]e^{j2\pi n4/5} \right ) \\ X_5[1]=5 \mbox{, and } X_5[0]=X_5[2]=X_5[3]=X_5[4]=09 KB (1,594 words) - 15:36, 20 October 2015
- \mathcal{Y}(\omega) =\frac{1}{4} \sum_{k=0}^{3} \mathcal{X} \left (\frac{\omega-k2\pi}{4} \right ) ==Question 3==6 KB (945 words) - 11:40, 19 October 2015
- ...modeled as an impulse train passing through the vocal tract. While in both cases vocal tract selects the noise heard, in voiced sound the impulse train dete ...ally eliminated almost completely. Since the noise is not periodic in most cases, any substantial noise is effectively multiplied by a zero. The probability9 KB (1,777 words) - 23:23, 21 November 2015
- \begin{cases} \end{cases}5 KB (766 words) - 22:18, 7 March 2016
- <math> f(d) = 3 </math> <br /> * Analysis of social structures (special cases may include schools, military, parties, events, etc.).13 KB (2,051 words) - 22:06, 24 April 2016
- *In some cases, we need pre-processing to transform the data in some way to get the statis ==3. algorithm assumption==8 KB (1,405 words) - 22:56, 27 November 2016
- ...essed signals. In this project, I want to explore what will happen in both cases. In order to feel it more directly, I decided to process some music signals ==3. Result==3 KB (553 words) - 22:41, 26 November 2016
- \bar{E}=\begin{cases} \end{cases}} \left(\frac{V}{m}\right)4 KB (646 words) - 23:24, 25 April 2017
- <math>\quad rank=2\ne \mbox 3</math> \qquad rank<3 \qquad must\;contain\;\lambda=-14 KB (588 words) - 00:10, 21 May 2017
- <math>\begin{cases} \end{cases}</math>4 KB (557 words) - 01:01, 21 May 2017
- <math>\begin{cases} \end{cases}</math>7 KB (1,126 words) - 05:45, 22 May 2017
- <math>\begin{cases} \end{cases}</math>3 KB (393 words) - 11:33, 18 June 2017
- & = \begin{cases}Ar\cos\theta, r<a \hspace{3cm} \leftarrow\text{ no singularity at }r=0\\ \end{cases}4 KB (702 words) - 17:02, 17 June 2017
- ...{2cm}r\le a\\-E_0r\cos\theta+\frac{B\cos\theta}{r^2}\hspace{2cm}r\ge a\end{cases} <math>Aa = -E_0a+\frac{B}{a^2}\to A = -E_0 + \frac{B}{a^3}</math>4 KB (642 words) - 10:44, 18 June 2017
- ...ega}\bigg)\\\sigma\to\infty\to\epsilon_c\to\infty\\\text{ then }M_c=0 \end{cases}</math> 3) <math>\nabla\times\bar{H} = \bar{J}+\frac{\partial D}{\partial t}\hspace{13 KB (591 words) - 11:21, 18 June 2017
- ...ega}\bigg)\\\sigma\to\infty\to\epsilon_c\to\infty\\\text{ then }M_c=0 \end{cases}</math> 3) <math>\nabla\times\bar{H} = \bar{J}+\frac{\partial D}{\partial t}\hspace{13 KB (591 words) - 11:24, 18 June 2017
- \rho=\begin{cases} qN_{D2} & x_{n1}\le x\le x_{n2}\text{ region 3}\\2 KB (385 words) - 10:52, 6 August 2017
- In both cases ‘R’ refers to the radius if the graph were to be revolved around the gi ==3. References==3 KB (576 words) - 20:37, 3 October 2017
- In both cases ‘'''<math>R</math>'''’ refers to the "'''radius'''" if the graph were t ==3. References==4 KB (664 words) - 09:42, 19 January 2018
- <math>=\begin{cases} undefined, & if & s≤2 \end{cases} </math>.6 KB (1,071 words) - 18:26, 22 November 2017
