Timeline for How do Electric and magnetic fields generate each other (mathematically)?
Current License: CC BY-SA 4.0
7 events
| when toggle format | what | by | license | comment | |
|---|---|---|---|---|---|
| Mar 29 at 22:00 | comment | added | my2cts | @AmitRai This answer is not relevant for this question, which is about the Maxwell-Faraday law of induction. The answer is nevertheless relevant to the Maxwell-Ampère law. | |
| Mar 29 at 6:18 | comment | added | SHINU_MADE | just wanted to reduce E... lol is it really how it works? | |
| Mar 29 at 6:17 | comment | added | SHINU_MADE | So basically for 2 linked differentials to not have a "unbounded exponential growth" they must have a relation similar to "an increase in 1st should induce a decrease in the 2nd" (obviously the above statement is written in the simplest form and sense). So by thinking i realised that when we have a increasing magnetic flux or field this field reduces the electric filed in the region but since at t=0 electric field is '0' thus magnetic field reduces the field below 0 thus creating a electric field.(this is what people mean when they say magnetic field creates E field but actually the B field... | |
| Mar 29 at 5:41 | vote | accept | SHINU_MADE | ||
| Mar 29 at 4:31 | vote | accept | SHINU_MADE | ||
| Mar 29 at 5:41 | |||||
| Mar 29 at 0:48 | history | edited | Claudio Saspinski | CC BY-SA 4.0 |
Corrected sign in the diff equations
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| Mar 28 at 20:04 | history | answered | gandalf61 | CC BY-SA 4.0 |