A 200 Q resistor is connected in series with a 4.00 µF capacitor and an ac source. The oltage across the resistor is vr = 5.00 V cos [(800 rad/s) t]. What is the reactive capacitance and the instantaneous oltage across the capacitor . Xc = 8.00 x 104 0, vc = 2.00 x 105 v cos [(800 rad/s) t - T/2] 3. Xc = 8.00 x 104N, Vc = 2.00 x 10$ v cos [(800 rad/s) t + t/2] C. Xc =1.25 x 103 Q, vc = 31.2 V cos [(800 rad/s) t+ t/2] . Xc =1.25 x 103 Q, vc = 31.2 V cos [(800 rad/s) t - /2]
A 200 Q resistor is connected in series with a 4.00 µF capacitor and an ac source. The oltage across the resistor is vr = 5.00 V cos [(800 rad/s) t]. What is the reactive capacitance and the instantaneous oltage across the capacitor . Xc = 8.00 x 104 0, vc = 2.00 x 105 v cos [(800 rad/s) t - T/2] 3. Xc = 8.00 x 104N, Vc = 2.00 x 10$ v cos [(800 rad/s) t + t/2] C. Xc =1.25 x 103 Q, vc = 31.2 V cos [(800 rad/s) t+ t/2] . Xc =1.25 x 103 Q, vc = 31.2 V cos [(800 rad/s) t - /2]
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![A 200 Q resistor is connected in series with a 4.00 µF capacitor and an ac source. The
voltage across the resistor is vR = 5.00 V cos [(800 rad/s) t]. What is the reactive capacitance and the instantaneous
%3D
voltage across the capacitor
A. Xe = 8.00 x 104 0, Vc = 2.00 x 105 V cos [(800 rad/s) t - T/2]
B. Xc = 8.00 x 104 0, vc = 2.00 x 105 V cos [(800 rad/s) t + T/2]
C. Xc =1.25 x 103 Q, vc = 31.2 V cos [(800 rad/s) t + n/2]
D. Xc =1.25 x 10³ Q, vc = 31.2 V cos [(800 rad/s) t- T/2]](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F89f6d745-f100-47e9-9cdc-8166ce0971bb%2Fa89dfd37-ed55-428a-918b-7978e6e1f65f%2Fky2zvdf_processed.png&w=3840&q=75)
Transcribed Image Text:A 200 Q resistor is connected in series with a 4.00 µF capacitor and an ac source. The
voltage across the resistor is vR = 5.00 V cos [(800 rad/s) t]. What is the reactive capacitance and the instantaneous
%3D
voltage across the capacitor
A. Xe = 8.00 x 104 0, Vc = 2.00 x 105 V cos [(800 rad/s) t - T/2]
B. Xc = 8.00 x 104 0, vc = 2.00 x 105 V cos [(800 rad/s) t + T/2]
C. Xc =1.25 x 103 Q, vc = 31.2 V cos [(800 rad/s) t + n/2]
D. Xc =1.25 x 10³ Q, vc = 31.2 V cos [(800 rad/s) t- T/2]
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