2. If the current in 10µF capacitor is i(t) = 5te3t mA; A. Plot a graph of the current vs time. B. Find the voltage across as a function of time, plot a graph of the voltage vs time, and calculate the voltage value after t = 300ms. Assume that the capacitor is initially charged to 3mV. C. Find the energy E(t), plot a graph of the energy vs time and, determine the energy stored at time t = 1.2s.

2. If the current in 10µF capacitor is i(t) = 5te3t mA; A. Plot a graph of the current vs time. B. Find the voltage across as a function of time, plot a graph of the voltage vs time, and calculate the voltage value after t = 300ms. Assume that the capacitor is initially charged to 3mV. C. Find the energy E(t), plot a graph of the energy vs time and, determine the energy stored at time t = 1.2s.

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Question

2. If the current in 10µF capacitor is i(t) = 5te*
mA;
A. Plot a graph of the current vs time.
B. Find the voltage across as a function of time, plot a graph of the voltage vs time, and calculate the voltage value after t = 300ms. Assume
that the capacitor is initially charged to 3mV.
C. Find the energy E(t), plot a graph of the energy vs time and, determine the energy stored at time t = 1.2s.

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