a) Find the cutoff frequency in hertz for the RL filter shown in the figure. b) Calculate H(jw) at we, 0.125we, and 8e. c) If v; = 20cos(wt) V, write the steady-state expression for vo when w = wes, w...

a) Find the cutoff frequency in hertz for the RL filter shown in the figure.<br>b) Calculate H(jw) at we, 0.125we, and 8e.<br>c) If v; = 20cos(wt) V, write the steady-state expression for vo when w = wes, w = 0.125we, and w = 8we.<br>50 mH<br>31.2 kl<br>a) we - 24 krad<br>b) H (jwe)<br>24000<br>24000 + 124000<br>H (50.125w)<br>24000<br>2000 + j3000<br>H (38we)<br>24000<br>24000 + j192000<br>c) oo (t) lu= 14.142 cos(24000t – 45°) V<br>vo (t) lo.125u. = 19.846 cos(3000t – 7.125°) V<br>vo (t) |su. = 2.48 cos(192000t – 82.875°) V<br>

Extracted text: a) Find the cutoff frequency in hertz for the RL filter shown in the figure. b) Calculate H(jw) at we, 0.125we, and 8e. c) If v; = 20cos(wt) V, write the steady-state expression for vo when w = wes, w = 0.125we, and w = 8we. 50 mH 31.2 kl a) we - 24 krad b) H (jwe) 24000 24000 + 124000 H (50.125w) 24000 2000 + j3000 H (38we) 24000 24000 + j192000 c) oo (t) lu= 14.142 cos(24000t – 45°) V vo (t) lo.125u. = 19.846 cos(3000t – 7.125°) V vo (t) |su. = 2.48 cos(192000t – 82.875°) V

Jun 11, 2022

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a) Find the cutoff frequency in hertz for the RL filter shown in the figure. b) Calculate H(jw) at we, 0.125we, and 8e. c) If v; = 20cos(wt) V, write the steady-state expression for vo when w = wes, w...

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