25V ° D) shetch the wave forms of Vc and ic VE (V) 0.446 of €15.6ms. [25(1-e V] 1 5t=28mA ic (mA →t -4/5.6ms 0.446e mA] 50=28mA For the circuit in Figure, composed of standard values: C R 8 +15 V (t = 0 s) 1 56 ΚΩ Lic + 0.1 µF vc -10 V Figure 1:

Can you check if my answers are correct

(a) Determine the time constant of the circuit.

T = 5.6ms

(b) Write the mathematical equation for the voltage vC following the closing
of the switch.

Vc = 25(1 - e^-t/5.6ms)V

(c) Write the mathematical expression for the current iC following the closing of the switch.

This one was tricky since I guess that 25V is considered E voltage. so I thought this would be divided by the resistor which I got Ic = 0.446e^-t/5.6ms

(d) Sketch the waveforms of vC and iC

 

Transcribed Image Text:

25V ° D) shetch the wave forms of Vc and ic VE (V) 0.446 of €15.6ms. [25(1-e V] 1 5t=28mA ic (mA →t -4/5.6ms 0.446e mA] 50=28mA

Transcribed Image Text:

For the circuit in Figure, composed of standard values: C R 8 +15 V (t = 0 s) 1 56 ΚΩ Lic + 0.1 µF vc -10 V Figure 1: