Question

The electric current in a discharging R-C circuit is given by $\sf{i = i_{0}e^{-t/RC}}$ where $\sf{i_{0}}$, $\sf{R}$ and $\sf{C}$ are constant parameters and t is time. Let $\sf{i_{0} = 2.00\:A}$, $\sf{R = 6.00 × 10^{5}$ Ω and $\sf{C = 0.500 \mu F}$. (a) Find the current at t = 0.3 s. (b) Find the rate of change of current at t = 0.3 s. (c) Find approximately the current at t = 0.31 s.

Kindly answer it with a explanation.
All the best! :D ​

Answer 1

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Answer 2

Answer:

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