current and impedance
Q: 1) The magnitude of the resultant flux in two phase supply system is equal to: A. В. Pm C. Pm D. m…
A: Since you have asked multiple objective questions , so we will solve first three question for you.…
Q: (b) An input x(t) as in Figure Q1(a) is passed through an LTI system with impulse response given by…
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Q: Hw o Finel Curvent Io in the cirenit belas usig- Okirchoff's law E Mesh analy Noce! A Therenin.…
A: Dear student, As per our company guidelines we are supposed to answer ?️only first 3️⃣ sub-parts.…
Q: se Thevenin's theorem to find Vo in the network. 10 jia 2Ix -j1a. 220°A 10 10 Vo 10 Ix ll
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Q: 4. R=_2 R, 1.6 kn R2 1.2 k R3 1 kn %3D
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Q: 16 analog signals (each is bandlimited to 8kHz) are transmitted simultaneously over a channel via…
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Q: Zener Diodes . a. Determine V, I, Iz, and Ig for the network of Fig. 186 if R1 = 180 2. b. Repeat…
A: as per our company guidelines we are supposed to answer only first three subparts. kindly repost the…
Q: A unity feedback system with its forward transfer function G(s) = K(s+a)/s(s+B) is to be designed to…
A: The solution is given below
Q: Find the value of K for the system given below that will place the closed-loop poles as shown.
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Q: 5.33.1 For the circuit involving an ideal op amp shown in the image below, if R1 = 21 k2, R2 = 24…
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Q: 1) Write VHDL code of the following circuitY=(a xor b) or (not (c and b) ).
A: Write VHDL code of the following circuity=(a xor b) or (not (c and b) ).
Q: 5. A 1-phase transformer has 500 primary and 1200 secondary turns. The net cross-sectional area of…
A: The solution is given below
Q: Given a combinational logic circuit whose input is a four-bit number and whose output is the 2's…
A: Combinational logic circuit- It is defined as a circuit which is formed by the combination of logic…
Q: 1. Draw the circuit diagram of a single phase full-wave uncontrolled rectifier with R-load. Describe…
A: “Since you have asked multiple question, we will solve the first question for you. If you want any…
Q: Given the circuit, calculate the quiescent values Icq and Vceq. Vcc +10 V Rc 10 kN RB 180 kN Bpc =…
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Q: 4. D = -16 – 12i EXPONEΝΤIAL FORM 5. E = 10e-1.97i _ RECTANGULAR FORM
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Q: R2 R1 + + Vs(+ Vo
A: We need to find transfer function for given circuit
Q: given h(t) = e−3tu(t), where u(t) is the unit-step function, calculate the convolution y(t) = x(t)…
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Q: 2) A 2 µC point charge is located at A(4, 3, 5) in free space. Find the components E, , Es , and E,…
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Q: provide detailed theory on a function generator lab exeperiment mostly focusing on the square wave…
A: Function generator: It is used to generate different types of waves like triangular, sinusoidal,…
Q: a) Design a Butterworth band-pass filter using the TL084 amplifier and draw it with the following…
A: Filter is a device that process the signal and gives desired output. It can be active or passive and…
Q: Find Vo/Vi. 12 1H vi(t) ΙΩ IF vo(t) Answer with text and/or attachments
A: The solution is given below
Q: 2)For the circuit below,find the: (a)the T-equivalent circuit, (b)the [I-equivalent circuit. 5 H 15…
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Q: H.W: A common-emitter amplifier has CCi= CE = Cc2 = 1µF, RB= 100k2, Rsig = 5k2, gm = 40 mA/V,m rz =…
A: Given,CC1=C=CC2=1μF,RB=100kΩRsig=5kΩgm=40mA/Vrπ=2.5kΩRE=5kΩRC=8kΩRL=5kΩValue of time constant…
Q: Determine the value of x2F for the translational system shown below. [Tip: Put a mass of zero for…
A: The transfer function can be calculated by inserting mass of value zero at displacement X2 and write…
Q: A = 2 1 et B =2 1 3 21 [2 -4 5] 21
A: f) Given matrices C=3-13415213E=2-45014321
Q: Use Thevenin's theorem to find V, in the network. j10 10 220°A 2Ix -jia7 10 Vo 10 10 6/5°v Ix ll
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Q: 8. At what frequency will a 1-µF capacitor have an Xc equal to 500 2 ? Answer : f = Hz
A: This question comes under electrical circuit theory . It is based on the formula of capacitive…
Q: Using the Circuit below, determine the following: 1. The Power taken by the 3 ohm resistor 2. The…
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Q: 4.Show a general mathematical expression which is appropriate to describe a one-dimensional…
A: We need to show a general mathematical expression which is appropriate to describe a one-dimensional…
Q: Problem solving 1. A building has 21 housing units. Each housing unit has the following circuit…
A: Electrical demand factor can be explained as the Maximum demand of system divided by total connected…
Q: 5. At what frequency does a 35 mH inductor have 47 k2 of reactance? Answer : f = kHz
A: This question belongs to circuit theory . It is based on the concept of formula of inductive…
Q: Find / in the network using Norton's Theorem. 12 2.5Ia -j2 32 2030°v. IA ¡ 42 ll
A: Norton's theorem :
Q: Find Vo/Vi. 1Ω 1 H vi(1) E ΙΩ 1 F Vo(t)
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Q: Three 2.5 kVA single phase 240 V/ 100 V, 50 Hz transformer are connected in star-star configura-…
A: Given single phase Transformer rating : 240/ 100 V connection star star
Q: Solve for amount of current thru resistor #4 (R4). Select one: a.1.22 A b.0.833 A c.0.68 A d.0.542 A…
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Q: b) Design a circuit using a single op amp to generate the following output, vo - | (4v, + 2v2 +…
A: Disclaimer: "Since you have asked multiple question, we will solve the first question for you. If…
Q: How to connect these boolean expressions to IC CHIP CD4027 Jk flip flop 1 Ja = BCD Ka = D JK…
A: According to the question, for the given boolean function as shown below Jk flip flop 1 Ja = BCD Ka…
Q: 57. In the circuit of Fig. 3.93, only the voltage vz is of interest. Simplify the circuit using…
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Q: 5.71 For the circuit involving ideal op amps shown in the image below, if R1 = 17 %3D k2, R2 = 20…
A: Brief description: Operational amplifier is an active device which is used for followings, Inverting…
Q: Determine C/R for the block diagram given below using block diagram reduction technique, and verify…
A: Using block diagram techniques find the transfer function of the given block diagram. Now using…
Q: Figure Q1(a) and Figure Q1(b) (refer to each student's attachment) illustrate the signal x(t) and…
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Q: 10 j12 2Ix -j127 220°A 10 10 10 5°v Ix ll
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Q: Calculate your monthly electric bill based on the appliances you used at home. Use the formula:…
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Q: Determine Vo/Vi of the transfer function. Vo 1H 100 :1F Vi (+2)
A: The solution is given below
Q: Ix 図 ーj127 10 jia 10 220°A のAOV 10 10 Ix ll
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Q: H. W1: - Let x(n) s1, 0 1 Sa", h(n) = 0, otherwise
A: The solution is given below
Q: 17. Find the expression for the overall system transfer function of the system in Figure E.17. (a)…
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Q: 6. R, =2 R, = 100 N R2 = 100 0 %3D R3 =100 0 R5 = 20 2 R4 = 50 %3D R5 = 10 2
A: We need to find out equivalent resistance of given circuit
Q: Measured R (2) (No Power) Voltage (V) Current (A) Calculated R (S2) (Powered) 2.5k2 3V 1.2mA 2.5kQ…
A: The solution is given below
Answer the following questions:
6. Describe the current and impedance in a series RLC circuit at resonance.
7. Describe the current and impedance in a parallel RLC circuit at resonance.
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Solved in 3 steps with 3 images
- Usually, a multistage amplifier connection can be used to increase the overall small-signal voltage gain and to provideoutput impedance. A very high B) zero (c) infinite D) very lowDetermine the impedance of the circuit in Figure (4.b) at the resonant frequency fr D17.794 KHz R=502 C-0.01 uf L-8mH Figure 4.bThe resonant converter having fixed value of resonant frequency 48 Hz and capacitance of 2 muF. Find the inductance of this resonant converter a. 2.64 H b. 5.49 H c. 33.12 H d. 34.51 H
- In a RC type low pass fitter, the cut-off frequency is 1500 Hz, Assuming the capacitance to be 500 nF. The value of the resistance is - (in)Consider the circult given below a) Identify the circuit with details b) Find the Q-point O Find Vs,Vs Vo, Vos and Vas d) Find the RMS output voltage and draw it In the same graph- with Input e) Comment on the output signal if the input increases to Vinp=20V V 18 V 2.7 w - 10 MA atanm - - 6 V C 100F -0.3 F 1.5 MD - 130 F 220 11In a series RLC circuit, the applied voltage is 120V. At resonance, the frequency is 200rad/sec, and the circuit current is 6.26 A. What is the resistance of the circuit (in Ohms)? (Use 2 decimal places. Unit is not required.)
- Q3/ Determine the centre frequency, maximum gain, bandwidth and type filter for the circuiting figure. 1 kOhm 0.022 UF HH 0.047 uF 0.047 UF 1 kOhm 1 kOhm Vo HH HH 560 Ohm 560 Ohm 0.022 UF 1 kOhm 1 kOhm KohmWhat should Zy be to transfer the maximum active power from the source? Please use Thevenin method.H.W: A resistor of resistance R=1000 2is maintained at 17 °C and it shunted by 100 uH inductor. Determine the ms noise voltage across the inductor over a frequency bandwi dth of: Ans: 182 x10° volt Ans: 9.22 x10 volt Ans: 2.34 x10 volt i) 15.9 kHz ii) i) 159 kHz 1590 kHz
- Calculate the resonant frequency of the median resonator. The value of D2= 6.05 cm, D1= 1.72 cm,Lreal= 1.89 cm and the temperature is 25°. Also obtain the value in units of the frequency ofresonance.Eill in the blank with corect answers B Frequency Series Resonance - Impedance vs. Frequency. The graph of impedance against frequency for an RLC series resonance circuit is shown in the picture. At which point the current will be maximum At point A At point C At point B At point D The inner most layer of an optical fhotI Is cantu ImpedanceHW: Determine Zin, Zo and the small-signal voltage gain. P type C₁ C₂ Vo D Vin Rs RD RL SINT 4k 2k 4k Zin -5V Zo +5V = kp 1mA/V2 Vr = -0.8V λ=0 Bobin painleido XL=SL = jwL Frequency Response Sm= 2 kp (VSG₂Q +VT) rd = 1 A IDQ ID= kp (VSC₂+V+) ² notion Xc = Copacite 1 (WC 345