Timeline for Where does the energy vanish in wave interference? [duplicate]
Current License: CC BY-SA 4.0
13 events
| when toggle format | what | by | license | comment | |
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| Dec 5, 2020 at 12:56 | vote | accept | Tekton_infernus | ||
| Dec 5, 2020 at 12:55 | vote | accept | Tekton_infernus | ||
| Dec 5, 2020 at 12:55 | |||||
| Dec 4, 2020 at 5:17 | vote | accept | Tekton_infernus | ||
| Dec 5, 2020 at 12:55 | |||||
| Dec 3, 2020 at 9:45 | history | closed |
ProfRob Qmechanic♦ |
Duplicate of What happens to the energy when waves perfectly cancel each other? | |
| Dec 3, 2020 at 8:17 | review | Close votes | |||
| S Dec 3, 2020 at 9:48 | |||||
| Dec 3, 2020 at 7:54 | comment | added | ProfRob | Does this answer your question? What happens to the energy when waves perfectly cancel each other? | |
| Dec 3, 2020 at 7:33 | comment | added | abir | @Tekton_infernus what you have written is the equation of a simple harmonic oscillator(a block attached to a horizontal spring for example). The equation of a wave id $y(z,t)=Asin(\omega t-\vec{k}\cdot\vec{r}+\phi)$ for a wave travelling in $\vec{r}$ direction. | |
| Dec 3, 2020 at 7:31 | answer | added | Roger Wood | timeline score: 0 | |
| Dec 3, 2020 at 7:26 | comment | added | user87745 | What is the definition of a wave? ;) | |
| Dec 3, 2020 at 7:05 | answer | added | joseph h | timeline score: 0 | |
| Dec 3, 2020 at 6:50 | review | First posts | |||
| S Dec 3, 2020 at 9:48 | |||||
| Dec 3, 2020 at 6:49 | history | edited | Qmechanic♦ | CC BY-SA 4.0 |
edited tags; edited title
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| Dec 3, 2020 at 6:43 | history | asked | Tekton_infernus | CC BY-SA 4.0 |