(e) Sketch the form of the function v,(t) given by Equation 1.1, where Vo is a constant and uft) is a unit step function. v,(t) = V,[1 – u(t + 200µs) + u(t – 100us)] Equation 1.1

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(e) Sketch the form of the function v, (t) given by Equation 1.1, where Vo is a constant
and uft) is a unit step function.
v,(t) = V,[1– u(t + 200µs) + u(t – 100us)1
Equation 1.1
(f) Write down an expression for the time constant of the circuit shown in Figure 1.4 for
t>0. (You may assume that for t<0 the switch was open for a very long time.)
t=0
R
V.
Figure 1.4
(e) The sinusoidal voltage source, Vn, has a frequency of 50 Hz. What is the total
(complex) impedance of the resistor-inductor combination in the circuit shown in
Figure 1.5?
100 0
200 mH
Vin
Figure 1.5
(h) What is the resonant frequency (in Hz) of the circuit in Figure 1.6? (Where |./V| is
maximized.)
500 mH
6 µF
Vin
1.5 kn
Vo
Figure 1.6
e
Transcribed Image Text:(e) Sketch the form of the function v, (t) given by Equation 1.1, where Vo is a constant and uft) is a unit step function. v,(t) = V,[1– u(t + 200µs) + u(t – 100us)1 Equation 1.1 (f) Write down an expression for the time constant of the circuit shown in Figure 1.4 for t>0. (You may assume that for t<0 the switch was open for a very long time.) t=0 R V. Figure 1.4 (e) The sinusoidal voltage source, Vn, has a frequency of 50 Hz. What is the total (complex) impedance of the resistor-inductor combination in the circuit shown in Figure 1.5? 100 0 200 mH Vin Figure 1.5 (h) What is the resonant frequency (in Hz) of the circuit in Figure 1.6? (Where |./V| is maximized.) 500 mH 6 µF Vin 1.5 kn Vo Figure 1.6 e
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