Mukha mo diagram. Suppose the inductor is connected in series with a resistor and a capacitor. If V₁ represents the phasor of the voltage of the inductor as shown, which of the following correctly describes the phasor of the voltages of the resistor VR and the capacitor Vc? V₂ V₁ 2 W 27 V₁ V3
Mukha mo diagram. Suppose the inductor is connected in series with a resistor and a capacitor. If V₁ represents the phasor of the voltage of the inductor as shown, which of the following correctly describes the phasor of the voltages of the resistor VR and the capacitor Vc? V₂ V₁ 2 W 27 V₁ V3
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Answer only 27
![For the items 26 and 27, consider the following sinusoidal plot of the instantaneous voltage of an inductor as a function of time.
0.0
12.5
37.5
50.0
25.0
Time (s)
26
Ang mean-mean mo! What is its root-mean-square voltage?
O A. 2.1 [V]
O B. 3.0 [V]
O C. 4.2 [V]
O D. 8.5 [V]](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F55a079fb-84cc-41b2-9bfa-d24f34473068%2F6a275e28-895f-428b-8efb-d610e6c212c4%2F1lnj38g_processed.jpeg&w=3840&q=75)
Transcribed Image Text:For the items 26 and 27, consider the following sinusoidal plot of the instantaneous voltage of an inductor as a function of time.
0.0
12.5
37.5
50.0
25.0
Time (s)
26
Ang mean-mean mo! What is its root-mean-square voltage?
O A. 2.1 [V]
O B. 3.0 [V]
O C. 4.2 [V]
O D. 8.5 [V]
Transcribed Image Text:Refer to the figure provided in Question 26 for this question.
Mukha mo diagram. Suppose the inductor is connected in series with a resistor and a capacitor. If V₁, represents the phasor of the voltage
of the inductor as shown, which of the following correctly describes the phasor of the voltages of the resistor VR and the capacitor Vc?
V₁
1
27
V₂
3
√2
VL
OA. V₁: Vc, V2: VR
OB. V₁: VR, V₂: Vc
OC. V₁: Vc, V3: VR
OD. V₁: VR, V3: Vc
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