First Order Circuit: Difference between revisions

From Rice Wiki
(Created page with "= RL Circuit = == Energy Conservation == As current increases, work done by the battery is not the same as the energy dissipated by the resistor. The remaining energy, <math> L/2 I^2 </math> is ''stored'' in the form of magnetic field inside the inductor. Substituting inductance and factoring out volume, we eventually get energy density <math> \frac{B^2}{2 \mu_0} </math>")
 
No edit summary
 
(One intermediate revision by the same user not shown)
Line 14: Line 14:
\frac{B^2}{2 \mu_0}
\frac{B^2}{2 \mu_0}
</math>
</math>
[[Category:Electrical Engineering]]

Latest revision as of 19:36, 17 May 2024

RL Circuit

Energy Conservation

As current increases, work done by the battery is not the same as the energy dissipated by the resistor. The remaining energy,

is stored in the form of magnetic field inside the inductor. Substituting inductance and factoring out volume, we eventually get energy density