A resistor of 150 ohms, a coil with reactance 100 ohms and a capacitor with reactance 200 ohms are connected in series. What is the complex impedance R + jX?
Q: Draw the impedance diagram for the circuit shown and find the total impedance. R = 40 X = 8n
A: Solve as below
Q: Find the total impedance of the circuit below. -j5 N 5 Ω 3Ω 100/0° V(A) 5Ω j4 2 elll
A:
Q: (b) The imaginary part of an impedance is called: O Not mentioned i Resistance i) Admittance i…
A: Imaginary part of the impedance?
Q: A 206.0-2 resistor and a 2.80-µF capacitor are connected in series across the terminals of a…
A: From the question, it is given thatResistance (R)=206 ΩCapacitance (C)=2.80 μFInductance (L)=0…
Q: An AC circuit has a frequency of 400 Hz. A 16 ohm resistor, a 0.0119-H inductor, and a 16.6 mF…
A: To determine the total impedance of the circuit containing 16 ohm resistor, 0.0119 H inductor and…
Q: Q1: Draw the impedance diagram for the series R-C circuit for the figure, then find the : R=60 Xc=81…
A: To draw the impedance diagram and calculate the voltages
Q: 5. A circuit has a total impedance of ZT = 10 Q+j50 Q. Sketch the equivalent series and parallel…
A:
Q: QUESTION 6 A resistor, a capacitor, and an inductor are connected in series with a mystery…
A:
Q: A 100-2 resistor, 20.0-mH inductor, and 2.0-uF capacitor are connected in series with a 500-Hz…
A: Given: A series RLC circuit with AC source having R=100 ΩL=20 mHC=2 μFf=500 Hz
Q: When 20:ohm resistance connected in series with the capacitor of 2f and the voltage across them are…
A: Drawing the circuit diagram for the given case:
Q: Consider a circult where an ideal inductor L=0.144H is connected in parallel to a resistor R=1.00kn.…
A: Given R =1000 Ω L=0.144 H C=0.367 μF f=3.4 kHz supply voltage =V The circuit is drawn as per given…
Q: a) Find the total impedance Z, in polar form. b) Draw the impedance diagram. c) Calculate the value…
A: As per the guidelines we are supposed to do the first three subparts of the question.do please…
Q: The term sin ( ø - 0)e-at of the resultant current in series R.L circuit transient is O Subtransient…
A: The exponential term is always indicates that dc part or steady state part of resultant current in…
Q: P5.6. Find the complex impedance in polar form of the network shoWn Ih Figure P5.6 for w = 500.…
A: The complex impedance of the RLC circuit is given by , Z=R2+ωL+1ωC2 As the angle of inductor and…
Q: Two impedances, Z1 = 2+j6 N and Z2 = 6-j12 N are connected in series with a 220-V 60-Hz supply. At…
A:
Q: elle ww 1215 Find the equivalent impedance of the circuit shown in Figure 12-34 if the op Hz. 3 mH A…
A:
Q: Ota the cucut beluu, asoume vact) = lewcus (500t) and tL isa (OPF capacitorin series with a lwe…
A:
Q: e. Draw the phasor diagram of the currents I,, IR. and IL. and the voltage E. f. Find the current Ic…
A: Given,
Q: A. Draw the extemal characteristics curves series de generators.
A: Please find the attachment below
Q: Impedances Z1=5.83<-59 and Z2=8.94<63.43 are in series and carry and effective current of 5.0 A.…
A:
Q: 3- L AV R R=425 0, L=1.25 H : C= 3.5 µFNg. 51
A:
Q: Find the current through the capacitor of (-j5) capacitance reactance using NODAL ANALYSIS. Current…
A:
Q: An alternating current generator with a frequency of 500 Hz and a peak voltage of 120 V is connected…
A: According to question: a) The impedance and phase angle of the circuit is calculated as…
Q: 94. In an a.c. series circuit, the inductive reac- tance is 202, the capacitive reactance is 60 22,…
A: Given: In a series AC circuit XL=20 ΩXC=60 ΩR=30 ΩI=2 A
Q: To make a 0.8 (lead) power factor closer to unity, an inductor is needed in parallel to the load.…
A: To make a 0.8 (lead) power factor closer to unity or improve power factor, parallel or shunt…
Q: C1 R1 L1 5002 500mH 220μ Vs 220 Vrms 50 Hz 0°
A:
Q: 5. The R-L series circuit shown below has source (E) frequency is 4-KHz. Determine: (a) the…
A:
Q: Power factor is the phase angle between the current and the source voltage. Select one: True
A: In this queetion we will write about power factor definition....
Q: Two impedances Z1 = 2+j6 N and Z2 = 6-j12 Q are connected in series. What is the resultant impedance…
A:
Q: Find the Im H equivalent Impedance For i БОО НЕ 2mH
A:
Q: Use superposition to find the phasor current, I, for the circuit below. 13 N -js Q Ht Ω ΣΩ 20/-30° V…
A: In this question we need to find a current I by using superposition theorem.
Q: A load is rated at 440V(rms), 7.5A(rms) and 3.3KW when connected to a 50HZ source. Find the load…
A:
Q: Part Ill: Application: Find the impedance of the circuit below at a frequency of 60HZ
A: The impedance of the circuit can be obtained by converting the capacitor and inductor in to its…
Q: Qz - For the Circuit a- Find total impedance shown be low : | To tul Voltage T. E, Resistance…
A: We will find out total impedance of given circuit then we will find out the voltage drop .
Q: 132 kV capacitor has a reactive power (Q) of 60 MVAR. Find its pu admittance on a base of 100 MVA,…
A: In this question , we will find pu admittance on given base of capacitor..
Q: 6. A two-element series circuit with R = 150, L = 20 mH has an impedance of 30 ohms and an unknown…
A:
Q: A resistor of 200 Ω, a coil with reactance 200 Ω and a capacitor with reactance 300 Ω are connected…
A:
Q: • [Q1] Using Phasor approach, find i(t) in terms of (amp, phase, freq.?) di 10 | i dt +- 10 idt * t…
A: Since we are authorized to solve one question at a time so i am solving only first question
Q: Q.8: For the circuit shown beside, find the transient current equation through the coil using…
A:
Q: A circuit has a 48 N resistor connected in series with an inductor with an inductive reac- tance of…
A: Given R = 48 ohm XL = 96 ohm XC = 76 ohm To find total impedance of series RLC circuit
Q: A voltage source with a value of 25 e^j45 V flows a current of 5 e^j15 A through a series impedance.…
A: An a.c circuit differs from a d.c circuit in many respects. First, in a d.c circuit we consider…
Q: Impedances Z1=5.83<-59 and Z2=8.94<63.43 are in series and carry and effective current of 5.0 A.…
A: Here we deal with the concept related to the AC circuit & reactive power.
Q: Question: 35 Vort electomotive Jorce is applied A R-C Series IS athms to Cir cuit in which an…
A:
Q: Two reactances 1+j2 and 2-j2 are connected in series. Which of them is inductive? What is the total…
A:
Q: An electrical engineer is working with a parallel AC circuit. The circuit draws 8 ohms on a…
A: In this question we need to find a number of ohm's on the inductive branch.
Q: In a distributed load, the resistance is 5 Ω and capacitive reactance is 8 Ω, inductive reactance is…
A:
Q: For the following circuit, determine the angle of the source current. ll 100 mH 5Z0° V R= 146N, the…
A: In this question , we will find total current I angle in series RL circuit....
Q: 400LF 12 22 V 0.4mH
A:
A resistor of 150 ohms, a coil with reactance 100 ohms and a capacitor with reactance 200 ohms are connected in series. What is the complex impedance R + jX?
Trending now
This is a popular solution!
Step by step
Solved in 2 steps with 2 images
- A 15-F AC capacitor is connected in series with a 50 resistor. The capacitor has a voltage rating of 600 WVDC. The capacitor and resistor are connected to a 480-V, 60-Hz circuit. Is the voltage rating of the capacitor sufficient for this connection?By convention, the sign of reactive power to an inductance is and the sign of reactive power to a capacitance isA coil and a capacitor are connected in series. The inductive reactance is 250 ohms, and the capacitive is reactance is -300 ohms. What is the net impedence vector, R + jX?
- a capacitor and a resistor are connected in parellel to a 120 v 60 hz line the resistor has a resistance of 40 ohms and the capacitor has a capacitance of 132.6 uf what is the total current flow through the circuit. what is the impedence and the power factor and how many degrees out of phase are the current and voltage out phase with eachother.QUESTION 6 A resistor, a capacitor, and an inductor are connected in series with a mystery component. The resistor has a resistance of 1000, the capacitor has a reactance of 5000, and the inductor has a reactance of 2000. The total impedance of the circuit is 100-j4000. What is the mystery component? O there is no mystery component O inductor O resistor O capacitorA resistor, a capacitor, an inductor, and a mystery component are connected in parallel. The resistor has a resistance of 300Ω, the capacitor has a reactance of 250Ω, and the inductor has a reactance of 600Ω. The total impedance of the circuit is 59.52-j119.64Ω. What is the mystery component?
- A 15µF capacitor and a 470 ohm resistor are connected in series with a function generator. The supply voltage is 50V RMS 40Hz. Find the reactive power for this circuit.A resistor with a resistance of 50 2 is connected in parallel with an inductor with an inductance of 0.175 henry. The power source is 60 Hz. What is the impedance of the cir- cuit? Letod edQUESTION 9 E-06, PC-02. Three inductors 5 mH, 15 mH and 25 mH are connected in series. What is the total inductance? 5 mH. 45mH. Without knowing the coupling factor the total inductance cannot be found. QUESTION 10 E-06, PC-05. An inductor is said to be saturated when? The current through it is zero. The current is at a maximum. It will no longer accept lines of flux.
- the shunt capacitance is a capacitor O a. Between a phase and the ground O b. between phases and a phase to ground c. none of the answers O d. Between phasesA parallel circuit has 10 ohms of resistance and a capacitive reactance of 15 ohms, An ac rms voltage of 200 V isapplied across it. What is the magnitude of the total current?Question 4 A boost converter has an input of 5V and an output of 20W at 15V. The minimum inductor current must be no less than 50% of the average. The output voltage ripple must be less than 1%. The switching frequency is 30kHz. Determine the duty ratio, minimum inductor value, and minimum capacitor value. Verify your answers using Matlab, show the inductor current is continues and its minimum is no less than 50% of its average. Furthermore, the output voltage ripple is less than 1%.