Timeline for Superposition of energy
Current License: CC BY-SA 4.0
8 events
| when toggle format | what | by | license | comment | |
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| Jun 1, 2020 at 11:41 | comment | added | cccube | Following @carloc and jonk's discussion below, the condition above can also be stated as: $$v_1(t)\circ v_2(t) = \int_{T_1}^{T_2}v_1 v_2 dt \equiv 0$$ Similarly, to fully answer the question, $$i_1(t)\circ i_2(t) = \int_{T_1}^{T_2}i_1 i_2 dt \equiv 0$$ | |
| Jun 1, 2020 at 11:28 | vote | accept | cccube | ||
| Jun 1, 2020 at 10:11 | history | edited | cccube | CC BY-SA 4.0 |
edited title
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| May 31, 2020 at 13:51 | answer | added | user136077 | timeline score: 2 | |
| May 31, 2020 at 13:16 | answer | added | Marcus Müller | timeline score: 2 | |
| May 31, 2020 at 13:16 | comment | added | Andy aka | It's the same formula with i replacing v. | |
| May 31, 2020 at 12:59 | history | edited | cccube | CC BY-SA 4.0 |
added 49 characters in body
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| May 31, 2020 at 12:52 | history | asked | cccube | CC BY-SA 4.0 |