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Problem 4. Using loop analysis, find the $V_0$ phasor if $V_s = 24\angle0^\circ$ V. Write down $v_0(t)$ as a function of time if the frequency $f = 60$ Hz. 

          Problem 4. Using loop analysis, find the $V_0$ phasor if $V_s = 24\angle0^\circ$ V. Write down $v_0(t)$ as a function of time if the frequency $f = 60$ Hz.
Problem 4. Using loop analysis, find the V0 phasor if Vs = 24∠0^∘ V. Write down v0(t) as a function of time if the frequency f = 60 Hz.

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University Physics with Modern Physics
University Physics with Modern Physics
Hugh D. Young 14th Edition
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Problem 4. Using loop analysis, find the Vo phasor if Vs =240V. Write down vo(t) as a function of time if the frequency f = 60 Hz. 29 VM e i2 V
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Transcript

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00:01 Hi, in this question we have the voltage formula is given by so it is 600 into 60 sin 200 into t.
00:12 So, this is amplitude and this is angular frequency.
00:14 So, from this we have angular frequency is 200 watt per second.
00:18 We have xc is given by so xc is given by 1 by omega c.
00:24 So, which is equal to 1 divided by 200 into 50 into 10 power minus 6 which is equal to 100 ohm and we have xl is equal to omega into l which is 200 into 0 .1 which is equal to 20 ohm.
00:38 Now, we have so from frequency domain circuit we have 50 ohm parallel.
00:44 So, 50 ohm resistor is parallel to minus j 100 ohm...
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