Example 1 A mass of 1 kg is to be supported on a spring having a stiffness of 9800 N/m. The damping coefficient
Q: For the following mechanical system, the input is the force and the output is the speed of the mass.…
A: This is dynamic mechanical system. Force is 0.5N and rise time = 44mS Steady state value = 0.2m/s…
Q: Exercise-7:Obtain the pole zero map and step response of the 2d order system and determine the mode…
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Q: Q27) Consider the cascade of two systems S1 and S2 x[n] w[n] y[n] S1 S2 (a) If both S1 and S2 are…
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Q: K(s + 7) s(s + 5)(s + 8)(s + 12) R(s) + E(s) C(s) Fig. Q2(b)
A: Steady state error
Q: 2. Which one of the following best describes the relationship between the gain K and the…
A: As per our guidelines, we are supposed to answer only first question. Kindly repost the other…
Q: SOURCE FREE RC CIRCUIT Q3. In the circuit shown in Fig. -200t V, t > 0 v(t) = 56 e i(t) = 8 e -2001…
A: From given voltage and current expression calculate initial value of voltage and initial value…
Q: Consider a system with the following RLC circuit, with a natural frequency of 2 rad/sec. 1. Find the…
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Q: Let a be a constant and consider the numerical method Yk+1 = Yk + hf(Yk + ahf(yk)) used to obtain…
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Q: 12v( R₁ t +=0 R₂ 1. Determine the initial conditions i₁(0+) and v.(0+) 2. Determine the steady state…
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Q: Write the differential equation for each system given in Fig.1(a) and (b). R(s) C(s) F(s) s+ 5 V(s)…
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Q: Based on the graph shown representing a second order system with a step response, what is the steady…
A: Given data,
Q: The system shown below has a unit step input. Ris) C(s) G(s) H(s) 1 and H(s)= 10 , then s+20 If G(s)…
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Q: 1. one of the following is true? Compute the damping ratio ( and the natural frequency wn in terms…
A: Control systems
Q: Problem 2: a. Compare the performances of the first order system, the overdamped, underdamped and…
A: In this question , we will see performance of first order system..And performance of second order…
Q: Submersibles with clear plastic hulls have the potential to revolutionize underwater leisure. One…
A: Steady state error due to disturbance, Tds=1s So, YsTds=1s1+k+k2k1s
Q: The step response of an underdamped mass-spring-damper system is found to have a peak time of 0.1b…
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Q: Find the damping ratio, undamped natural frequency, damped natural frequency, peak time, 2% setting…
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Q: Find the G(s) = C(s)/R(s) Also, determine the (a) Natural Frequency, (b) Damping Ratio, (c) Peak…
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Q: Consider a system with the following RLC circuit, with a natural frequency of 2 rad/sec. 1. Find the…
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Q: The system described by the following differential equation dy(t) -8y²(t) = x(t– 1) dt is: O A.…
A: A A differential equation said to be linear if and only if :- (1) degree of differential equation…
Q: or a second-order system that yields a 15% overshoot and a settling time of 0.7 seconds, determine…
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Q: Explain how the performances of second order system depend on the damping ratio and the natural…
A: In this question we will see performance of second order system with damping ratio and natural…
Q: 10(s + 7) (s + 10)(s + 20) T(s)
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Q: Q1. Consider a system with the following RLC circuit, with a natural frequency of 2 rad sec. I. Find…
A: As per the guidelines of Bartleby we supposed to answer first three subparts of the question
Q: : A discrete time linear system has the responses y,[n], y2[n] and ys [n] as a result of the applied…
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Q: The response curve of the system as shown, what will be the natural frequency and damping ratio?…
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Q: 5 T(s) (s + 3)(s + 6)
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Q: 1. In the given block diagram let r(t) = 3.5u(t); G1(s) = i G,(6) =Ga(s) = 6/s 3 S43i G2(s) s+2 C(s)…
A: Since we only answer up to 3 sub-parts, we’ll answer the first 3. Please resubmit the question and…
Q: Consider the system in the Figure where kis a constant and G(z) is as follows z - 1 G(z) = (z –…
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Q: What's the damping ratio zeta for this system with its closed-loop poles as shown? X Select one: Oa.…
A: Damping rario
Q: Situation: An SUV is parked along the side of a roadway, while a van is traveling adjacent to the…
A: For SUV -The initial velocity is zero.The acceleration is a and total time taken is T.For van - The…
Q: a.) Calculate the damping ratio, Š b.) Which of the following best describes the natural response of…
A: As per the honor code I will solve only first three parts .Kindly repost the other questions again.…
Q: Q16. A block diagram of a closed-loop control system is given in Figure. The values of K and P are…
A: Here first find the characteristic equation of 2nd order system and then compare
Q: system with an input with an input and as output shown in fig 1 steady-state Q1:- In a a. what poles…
A: For the above given 2nd order system we need to compute poles for the respective responses.
Q: Closed loop poles in a second order system -3 + 4j and -3-4j If so, what is the damping rate of…
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Q: R(s) + Y(s) 4 8 10 What is the damping factor of the system?
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Q: a. The switch S1 is in the A position. Find the maximum IL1 that will flow. b. Find the steady…
A: Since you have posted a question with multiple sub-parts, we will solve first three sub-parts for…
Q: For the system given, find the value of K that would yield a steady-state error of 8%. Explain (25%)…
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Q: Find the range of K-values for stability of the system given below. R(s) + C(s) G(s) (s +1)(s +3)…
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Q: For the system given, find the value of K that would yield a steady-state error of 8%. Explain R(s)…
A: The given problem is from control system. The calculation and formula is shown in the next step
Q: ot. Write the type of the system, Damping factor, natural frequency 12 G(s) s2 + 8s + 12 20 G(s) s2…
A: The standard transfer function of a second-order system with ζ (Damping factor) and ωn(Natural…
Q: The block diagram given below; a) Reduce. b) G1 (s) = 2 / s , G2 (s) = 1 / (4s + 2), G3 (s) = 4, H…
A: We’ll answer the first question since the exact one wasn’t specified. Please submit a new question…
Q: 12v ( R₁ لاش +=0 R₂ 1. Determine the initial conditions i₁(0+) and vc(0+) 2. Determine the steady…
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Q: values of the spring constant k b)Compute the damping constant b for the spring and shock absorber…
A: Given data, Mass of each wheel,m=625 kg Compression in the spring, x=12 cm=0.12 m a) Applying Hook's…
Q: Differential equation for a simple wheelchair with a suspension system (bumper) can be written as:…
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Q: : A discrete time linear system has the responses y,[n]. yz[n] and yz[n] as a result of the applied…
A: Linear system: Satisfies law of additivity and law of superposition.
Q: Q3) Determine the steady-state error for the system below. If the input 3u(t), t u(t), 10t2 u(t) And…
A: steady state error = Limit S→0 S R(s)1+GH Where R(s) is the input to the system and G is open loop…
Q: Sketch the root locus of the following system: Ks G(s) S+s+ zs Also find the rang or the value of K…
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Q: Which of the following is referred as steady state response of a system with sinusoidal input?…
A: The detailed answer to this multiple choice question is solved below according to the given…
Q: s + 5 T(s) (s + 10)2
A: Damping ratio: It tells about the decaying oscillation of the system. It is denoted by the ξ.
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- A steady current of 3.5 A is flowing through an inductor with 50 volts across it. Find (a) Inductance of the coil if the current falls to zero in 120 msec, (b) Energy stored in the inductor, (c) Number of turns in the inductor for a flux of 40 mWb. adows bu bolow and find the value of current flowind2. Consider the system given below. Investigate the stability using describing function. Find nature, amplitude and frequency of limit cycle. S 性 1 $+4 s+2You have been asked to investigate the loading effects on an alternator supplying a load and also charging a car battery at the same time. The output of the alternator has been rectified to smooth dc, and the circuit is shown below. Using Kirchhoff analysis, determine the initial current in each section along with its direction and the potential difference across the load.
- plz solve only part 2 Your company is considering the installation of a 2 MW wind turbine with a rotor diameter of 80 m in a location with average wind v = 10 m/s. The turbine has a cut-in velocity of 5 m/s and a cut-out velocity of 25 m/s. The capacity factor is 0.45. The installed cost of the turbine is $3,500,000. Operating expenses are $225,000 per year. The system has a power coefficient (electric power generated divided by wind power) of 0.45. part 1) What price would you have to get for the electricity you produce to obtain a 10% return on the plant investment assuming a project lifetime of 20 years? Use the tables for the cumulative wind power distribution in the notes on wind probability to answer this question. Assume an air density of 1.225 kg/m3. The answer is equal to 0.0815 dollar part2) How would your answer to problem one change for each of the following modifications to the data in that problem? (Consider each change independently, not as a cumulative series…in V1 R2 100k SINE(0 10 100) R1 100k D1 D V2 0 out D D2 V3 0 DC offset[V]: 0 Amplitude[V]: 10 Freq[Hz]: 100 T delay[s]: Theta[1/s]: Phi[deg]: Ncycles: anter 2019-2220 Figure 3-5 Clipper Circuit for LTSPICE Simulation C4. To specify the type of simulation, select "Simulate>>Edit Simulation Cmd" from the menu. Choose "Transient" and enter 30m for Stop time, 0 for Time to start saving data, and 1m for Maximum Timestep. Click OK. C5. Click Run to start the analysis. C6. Place two voltage probes (voltage probes appear when placed on a wire during simulation), one at the input side (at the top of V1) and another at the output side (at the top of D2) of the circuit. What difference do you observe between the input and the output waveforms?The rms value of v(t)=Vmaxcos(t+) is given by a. Vmax b. Vmax/2 c. 2Vmax d. 2Vmax
- An industrial load consisting of a bank of induction motors consumes 50 kW at a power factor of 0.8 lagging from a 220-V,60-Hz, single-phase source. By placing a bank of capacitors in parallel with the load, the resultant power factor is to be raised to 0.95 lagging. Find the net capacitance of the capacitor bank in F that is required.A series circuit consists of a resistor, a coil, and a capacitor connected across a 300 V, 60 Hz AC source. THe current drawn is 20A. The voltage across the resistor is 60 V, that across the coil is 260 V and that across the capacitor is 100V. The resultant voltage across the coil and the capacitor is 254.56 V. Determine (a) the resistance of the resistor, (b) the resistance and inductance of the coil, and (c) the resistance and capacitance of the capacitor.4_ For the system shown in figure N°4, find the percentage overshoot, the settling time, the peak time and the rising time for a unit step input if the response is underdamped. Is it muffled? Say why? Construct the graph of the answer c(t).
- Consider the electrical circuit shown in the image. There are 4 currents present. The current I enters a note and then branches into three seperate currents, I1, I2, and I3. A) rank the 4 currents according to their magnitude, greatest first. Explain. B)Considering Delta V1, Delta V2, and Delta V3, now rank them according to magnitude. Explain.Problem 15. A source of e.m.f. of 15V supplies a current of 2A for six minutes. How much energy is provided in this time?QUESTION 11 An inductor is connected in parallel with a 6540 resistor and a function generator. The applied voltage is 42V RMS and the total current is 67mA RMS. Find the magnitude of the current through the inductor. Enter your answer in the space provided. Round your answer to one decimal place. Your answer should be in mA but do not enter the unit.