Example 2. In Figure 4, if R = 100, L=5H, and C=2mF. Find a, w, s₁, and s₂. What type of natural response does the circuit have? Г R ww Ĉ i L m Io Figure 4. + Vo - C
Q: V1 NO cos &t V R1 200 1H 1 R3 400- 고 C1 ㅔ R2 -1/16F 400 V
A: Given:
Q: 01) For the circuit shown in Fig. 3, the transistor has (-50, VA 0.7V Ves 0.8V Vors-OV. If at t 0…
A: Since you have posted the multiple questions so we are supposed to answer the 1st one.
Q: ✓(rms In Fig 5, the input voltage Nin= 220v at 50 Hz. Each thyrist or has a delay. a = 150, The…
A: Input voltage, Vin=220v Frequency, f=50Hz Delay angle, α=1500 Source voltage, E=100v Transformer…
Q: Z '90 ΚΩ 10 ΚΩ 16 V 0,68 ΚΩ , | 2.2 ΚΩ β = 210 HE
A:
Q: For the network of Fig. and VCEg a. Determine Ico b. Find VB, VC, VE, and VBC. Vio 10 με H C₁ RB 680…
A:
Q: uestion 2 The result for the following expression (2t+3)8(t + 5)dt = ? is-7. True False
A: Given data, Function is given as, ft=∫∞∞2t+3δt+5dt. Value of function is 7.
Q: Q/Design a circuit to limit a (20 Vrms) sinusoidal voltage to a maximum positive amplitude of (10 V)…
A: Conceptual background:- Circuits:- A circuit is a fully enclosed circle through which electricity…
Q: A three-phase, full-wave half-controlled rectifier bridge circuit is operating at a delay angle a =…
A:
Q: January 9 In the following circuit, if 2 Q resistor is shorted, the value of V will be 292 10 V…
A:
Q: Q) single-phase bridge rectifier has an RL load with R=15 Ohm and L = 60 mH. The ac source Vs = 100…
A: R=15ΩL=60mHVs=100sin377t
Q: The result for the following expression (2t + 3)8(t + 5)dt = ? is-7. True False
A: We need to simplify the given expression .
Q: You are now given a new circuit and you are to derive a Boolean expression for it: N ● M T W F B…
A: Logic gates are used to implement the Digital circuits. Nowadays all the Microcontroller and…
Q: Ⓒ 12V 35 20 42 4A Det the Ian by: Thevents Nor fors
A:
Q: 1. Using Source Transformation, Find I, in the circuit.
A: It is given that:
Q: Exercise 3 a) Design a full-adder logic circuit using an active-low 2-to-4 decoder(s) and suitable…
A:
Q: The maximum current in this circuit passes through R2 because it is the smallest of the currents.…
A: We need to find out current through each resistor for given circuit.
Q: A parallel plate capacitive transducer uses plates of area 450 mm² which are separated by a distance…
A: We need to find out the capacitance and change in capacitance and ratio of change in capacitance to…
Q: The stator of a 415V, 50 Hz, 4-pole slip ring Induction Motor is excited by rated frequency with…
A: Given- The stator of a 415 V, 50 Hz, 4 pole slip ring induction motor is excited by rated frequency.…
Q: P13. Consider Determine: i. ii. the control system as R(s) maximum overshoot for a unit step input…
A: Given data The block diagram for the control is given in the problem. We need to determine the…
Q: Q5 Find K for the speech signal and sampling frequency 7 khz if the lowest frequency 4khz
A: Given data: The sampling frequency is 7 kHz The lowest frequency is 4 kHz
Q: = Find v(t) for t> 0 for the given circuit. 12 u(t) 2 0.5 H 3 ww 4 + v (t) I
A:
Q: To find the short circuit current, we connect a and b by a wire as shown below. 15V Vs www R1 3k Va…
A:
Q: 1 ОЗА ЗА 2 ш 3V ЗЛ ISV Det. Ian by Norton's
A:
Q: For the signal x[n] given in the Figure below, the transformation x[3-n] is given by −26[n + 1] −…
A: We need to find out shifted version of given sequences .
Q: Q1. (True or False): The convolution of x[n] with shift impulses, x[n]*δ[x-5] is x[x+5]?
A:
Q: la M 8882 Message 10 V In the following circuit, if 20 resistor is shorted, the value of V₁ will be…
A:
Q: The following figure shows a rectangular volume containing a liquid dielectric with relative…
A:
Q: A LLL fault occurs at terminals of a 33 kV, 3 phase 50 Hz circuit breaker. The maximum value of…
A: Given- A LLL fault- 33 kV, 3 phase-50 Hz circuit breaker, To Find- The maximum value of the…
Q: If you put a mass of 400g on the string. (The string is 50 cm long and mass 12.5g) What distance…
A:
Q: คำถามท้ายการทดลอง 1. จากวงจรไฟฟ้าต่อไปนี้ กำหนดให้ V1 = V2 = V3 = 5 V และ R1 = R2 = R3 = 20…
A:
Q: Answer ALL questions 1. Refer Figure 1 below. a. Figure 1 Write the verilog code for Figure 1. b.…
A: verilog code (a) module ff(a,b,c,x); input a,b,c; output x; wire f1,f2,f3,f4,f5,f6; assign f1=(~a);…
Q: Determine the z transform of the given signal below. x(n) = (-1)^(2)-nu(n) 1/(1+0.5z^-1) O…
A: We need to find out the z transform for given sequence .
Q: 3. True or False O O O It is not a must that = 0 to have an unstable system. (True/False) We can't…
A: We need to tell about whether the given statement are true or false.
Q: The current /is equal to 8 A 9 V 2 A 9V Fig. AS 3 V 6 V
A: Given data, Circuit diagram is given as,
Q: single-phase bridge rectifier has an RL load with R=15 Ohm and L = 60 mH. The ac source Vs = 100 sin…
A: It is given that: R=15 ohmL=60 mHVs=100sin377tIs1=3.9
Q: 3. True or False O O O It is not a must that = 0 to have an unstable system. (True/False) We can't…
A: Given:
Q: PART (1) Assume capacitor is fully charged when switch is at position 'a' for about 10 minutes. The…
A: Given- Part (I) The capacitor is fully charged when the switch is at position 'a' for about 10…
Q: Calculate the new values of currents
A:
Q: 5. (a) What are the two major carrier transport mechanisms in a semiconductor? What is the mechanism…
A: The two major carrier transport mechanisms in a semiconductor are drift and diffusion. The mechanism…
Q: 1.4L0° A j(6+y) Ω Μ 20 Ω Figure 3 a -j32 Ω b Μ (68+x) Ω
A:
Q: Q1: compare with aid of all equations and figures between the frequency division multiplexing (FDM)…
A: Q1) Frequency division multiplexing In FDM the channel is divided into two or more than two…
Q: Question 4 For the network with CE unconnected, determine A, (using appropriate approximations). It…
A: We need to find out the gain for given circuit .
Q: Act) dt Lito.5 cos Bt+ 0.5 cos 20€] Find the derivative with respect to t, and set the resulting…
A:
Q: 2. A B What particle has an electrical charge -1.6-10-19, Electron Proton C Neutron D Atom Coulomb?
A: Charge The physical characteristic of matter that causes it to feel a force when exposed to an…
Q: Exercise 3: 3-way Switch Below is the control diagram of a 3-way switch with a single lamp output.…
A: To draw PLC ladder diagram
Q: Q1) For the given circuit, calculate vo; a) by the node voltage method. b) by the mesh current…
A: We need to determine the output voltage Vo using a) node Voltage method b) mesh current method
Q: 2. 7sn - 2 - 4 1 2 375 + 5 f= 3 GHz •Find: (o), SWR
A: Given:
Q: Sketch the transfer curve for a p-channel device with Ipss = 4 mA and Vp = 3 V.
A:
Q: B1 9V *HH R1 22k R2 10k R3 15k R4 33k R5 12k
A:
Q: 1) For the circuit shown, determine & 2 V₁, V₂. 2) Power at (3km) & (2011) ns. (a) 15V, 20 V b)…
A:
Step by step
Solved in 2 steps with 2 images
- For the circuit shown, determine:a) Plot pole-zero diagram for H = I / Vsb) Based on H, calculate the forced response for i (t) to an excitation:Vs (t) = 5 e-3tsin (50t) cos (60t) [V]Build Circuit 1b in Multisim. Using MultiSim’s Oscilloscope, display and measure the voltages including the phase angles with respect to the input voltage. THIS IS 1b Problem: 1b) For the circuit shown , let R= 1kohm, L1 = 10mH, C1= 50nF. Calculate the values of Z, Phase Shift, I, Vr, Vc, VL , PR, PAPP and Power Factor. Do this for V1= 10 V at 10000Hz. Find resonant frequency. Measure phase shift like so: a) Measure the difference in times of the peaks for the two different waves. b) Divide this difference by the period length. The ratio tells you what fraction of a cycle the time difference is.c) One cycle is 360 degrees (or 2π radians) so multiply the fraction in step 2 by 360 degrees to convert that time difference into a phase shift (degrees)1- What is the mutual admittance, Y34, of the electric circuit shown in Figure ? Select one: a. 2+j3 b. 0 c. -2+j3 d. -2-j3 2- The admittance of the impedance -j0.5 is given by: Select one: a. 2j b. 4j c. -4j d. -2j Please help me as fast as possible please. PLEASE ANSWER ALL THE QUESTIONS COMPLETE STEP BY STEP PLEASE. THANKS.
- The ac bridge circuit, balances when Z1 is a 1-kohm resistor,Z2 is a 4.2-kohm resistor, Z3 is a parallel combination of a 1.5-Mohm resistor and a 12-pF capacitor, and f = 2 kHz. Find: (a) the series componentsthat make up Zx , and (b) the parallel components that make up Zx .AC bridge Find the Z4 with if , Z1 (Rx=3 ohm Cx= 0.00562 farad) , Z2 (Rs= 2 ohm Cs=0.00432 farad ) , Z3( R3= 5 ohm) , F= 1000 Hz. *1- Explain why the phasor and the impedance have the same angle. 2- Compare the result for utilized different frequency in same circuit. 3- Give example to utilize the RLC circuit. 4- In general, how would the phasor diagram of Figure 4.1 change if the frequency was raised? 5- In general, how would the phasor diagram of Figure 4.4 change if the frequency was lowered?
- Hi, i just need some more detail in relation to the answer provided. In step 3 the stated Zlv= 71.853∠26.697° Ω Then in step 4: If = V/Z =24/56.454 How has "Z" changed from 71.853 to 56.454. ThanksThe parameters in the circuit are R1=0.1 Ω,ωL1=0.8 Ω, R2=24 Ω, ωL2=32 Ω, and VL=240+j0 V.1. Calculate the phasor voltage Vs.2. Connect a capacitor in parallel with the inductor, hold VL constant,and adjust the capacitor until the magnitude of I is a minimum.What is the capacitive reactance? What is the value of Vs?3. Find the value of the capacitive reactance that keeps the magnitudeof I as small as possible and that at the same time makes|Vs|=|VL|=240 VIm:_,m 10.70 For Prob. 1 g8Q Jj6Q 40 j5Q WWW—T WWA—T + + 4£45° A VIS 21Qe i 2V, ==-jlQ -2Q =V, Figure 10.67 For Prob. 10.18.
- termining the impedance and current of the system, the voltage across the resistor, and the voltage across the inductor. Could you please forward the response as a print of a handwritten answer? I got these two answers earlier. Which of them would be correct Impedance Z= (1000 + j 90.836) ohm Current I= 0.219∠-5.19° A Voltage across resistor VR = 219.097∠-5.19° V Voltage across inductor VL = 165.195∠84.81° V Impedance will be Z= 1004.052 ∠ 5.12° Current will be i = 0.221 ∠ -5.19° A. Volatge across resistor will be VR = 211.9∠ -5.19° V Volatge across inductor will be VL = 165.12 ∠ 84.81°Vshow that v1=3i+6j and v2=-i-2j have opposite directionsIn an R-L parallel circuit, ET=240 volts, R=560 R = 560 2, and XL=330. Find reactive power.