#11please choose the correct answer R-L Series Circuit. In an AC circuit containing inductance L and resistance R (R-LCircuit). Which statement is true about RL series circuit?CircuitdiagramRpower factor is leadingVR = IR, VL = IXLVLVV = VR + VL (magnitude sum)V V = (Vr^2 + VL^2)PhasordiagramV impedance triangle, Z = (R^2 + XL^2)VVRVoltageImpedancetriangletriangleV(=IZ)^V^(=IX)ZAXL示方RV(=IR)current I lags the applied voltage V by an angle lying between 0° and 90° (depending on the values of VR and VL)lagging power factor

Answered: R-L Series Circuit. In an AC circuit…

R-L Series Circuit. In an AC circuit containing inductance L and resistance R (R-L Circuit). Which statement is true about RL series circuit?

Power System Analysis and Design (MindTap Course List)

6th Edition

ISBN:9781305632134

Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Chapter2: Fundamentals

Section: Chapter Questions

Problem 2.13MCQ

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Latches and Flip Flop

Just like logic gates, the latches and flip-flops are the important elements of an electronic circuit. The logic gates form the important part of combinatorial circuits, while the latches and flip-flops form the essential part of a sequential circuit. Sequential circuits form the important concept of automata theory in electronics and electrical engineering, these circuits are a kind of logic circuit whose output depends on both present input and past inputs, that is, the input history.

Question

#11 please choose the correct answer

R-L Series Circuit. In an AC circuit containing inductance L and resistance R (R-L
Circuit). Which statement is true about RL series circuit?
Circuit
diagram
R
power factor is leading
VR = IR, VL = IXL
VL
VV = VR + VL (magnitude sum)
V V = (Vr^2 + VL^2)
Phasor
diagram
V impedance triangle, Z = (R^2 + XL^2)
V
VR
Voltage
Impedance
triangle
triangle
V(=IZ)^V^(=IX)
ZAXL
示方
R
V(=IR)
current I lags the applied voltage V by an angle lying between 0° and 90° (depending on the values of VR and VL)
lagging power factor

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