Timeline for Integration of exponential having ||Lx|| inside?
Current License: CC BY-SA 3.0
13 events
| when toggle format | what | by | license | comment | |
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| Nov 6, 2016 at 0:25 | comment | added | Glen_b | So it's not that you want to estimate the variance (see your previous response to me) -- for which you could just use the formula -- but that you want to derive the result. Clarifying that issue (what you ultimately wanted to achieve) is why I asked. | |
| Nov 5, 2016 at 16:07 | answer | added | wij | timeline score: 0 | |
| Nov 5, 2016 at 13:07 | review | Close votes | |||
| Nov 5, 2016 at 21:58 | |||||
| S Nov 5, 2016 at 12:37 | history | edited | EngrStudent |
Converted images to LaTeX.
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| S Nov 5, 2016 at 12:37 | history | suggested | Waldir Leoncio | CC BY-SA 3.0 |
Converted images to LaTeX.
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| Nov 5, 2016 at 12:23 | comment | added | MBM | Thanks @Glen_b. I know that it is done. I am asking about the middle steps between?!! | |
| Nov 5, 2016 at 11:57 | comment | added | Glen_b | but then see that the term with the integral in it is followed by an equality (with $\text{def}$ above it, presumably indicating a definition). So it seems there's nothing to integrate, you just use the formula at the end. Someone integrated it for you. | |
| Nov 5, 2016 at 11:39 | review | Suggested edits | |||
| S Nov 5, 2016 at 12:37 | |||||
| Nov 5, 2016 at 11:31 | history | edited | MBM | CC BY-SA 3.0 |
added 33 characters in body
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| Nov 5, 2016 at 11:31 | comment | added | MBM | I want to estimate the variance as shown in Fig.1 | |
| Nov 5, 2016 at 11:05 | review | First posts | |||
| Nov 5, 2016 at 11:39 | |||||
| Nov 5, 2016 at 11:02 | comment | added | Glen_b | Why do you need to integrate it? | |
| Nov 5, 2016 at 10:59 | history | asked | MBM | CC BY-SA 3.0 |