Q3 Given the following three functions FI(x.y,z ) -Σ (1,2,3) F2 (x,y,z) = E (1,2,3,4,5) F3 (x.y,2) Σ (0,5,6,7) Implement the functions using ROM.
Q: Q1:Use the Routh-Hurwitz criterion to find the range of K for which the system of figure below is…
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Q: Q2: The closed loop transfer function of a system is given by G(Z) 1 1+ G(Z) Z2 – Z +1 Find the…
A: Closed loop transfer function of a system given. Find the location of poles Damping ratio Natural…
Q: Consider the following characteristic equation P(s) = s4 + Ks3 + s2 + s+1. Determine the range of K…
A: The given characteristic equation is, P(s) = s4+Ks3+s2+s+1
Q: Q3: Sketch the root locus plot for the following char. eq.: s(s + 1)(s + 2) + k(s + 3) = 0
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Q: Q1:-Use the Routh-Hurwitz criterion to find the range of K for which the system of figure below is…
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Q: نقطة واحدة The response curve of the system as shown, what will be the natural frequency and damping…
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Q: Q3) On a laboratory assignment, if the equipment is working, the density function of the observed…
A: If probability density function f(x) is given then the probability of outcomes within a specified…
Q: Q3. If F = x²a, + y'a, + (z² – 1) a, find F· dS, where S is defined by r= 2,0 < z < 's 2,0 < ¢ < 2r.
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Q: a) (a) The dynamics of a discrete-time system are determined by the difference equation;…
A: Given data, Discrete-time system difference equation 8yk+2-6y+1+yk = 6 y0 = 1 and y1= 1.5
Q: The system whose characteristic equation is given as s3 + 2s2 + Ks + 20 = 0 is asymptotically stable…
A: Detail solutions in the image
Q: P6.1. Ulilizing the Routh-Hurwitz criterion, determine stability of the following polynomials: (d)…
A: Control system stability problem . Look below for the solution..
Q: 5. Determine the range of K for stability of the following characteristic equation, (a) s* + 20s3 +…
A: Routh Hurwitz (R-H) Stability Criteria: We can find the stability of system by using R-H criteria.…
Q: Consider a signal, y(t) defined as, (-t+2, 0st<1 t-1, 1sts2 y(t) ={ t 5 2st5 --+-. 3 3 0, otherwise…
A: W(t) = 12Z2t = 0.5 Y(2t) = 0.5 [∫01(-2t+2)dt + ∫12(2t-1)dt + ∫25(-2t3+53)dt
Q: ! Required information Consider the real, frequency-domain function illustrated in the given figure.…
A: In this question, Continue time Fourier transform is given, find the inverse CTFT and draw it. We…
Q: a) The dynamics of a discrete-time system are determined by the difference equation; 8yk+2 - 6y+1+…
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Q: (a) A rotational mechanical system is shown in Fig. 3. Given the inertia value, J, is 1kgm2, the…
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Q: The helicity operator is E· p where E = 0 o Find solutions to the dirac equation that are…
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Q: 3.33 If F = x'a, + y'a, + (z? - 1) a, find F. dS, where S is defined by p = 2,0 < z < 2,0 < ¢ < 2T.
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Q: If the roots of the characteristics equation z=0.53474t0.5543 rad and sampling time%3D0.5sec., the…
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Q: The characteristic equation of a system is given as s³+25s²+10s+50=0. What is the number of the…
A: The root locus is an important method to find the stability of a closed-loop system using the…
Q: For the circuit shown,if the switch on at t=0, determine Vr, ir and vs as a function of time. Ro ↑…
A: Electric circuit is give the energy of a charge particles those take the current . electric circuit…
Q: Q1 The following differential equation describes a water tank system d 1 1/ h (1) + / 72 h(t) = — /…
A: 1) Given : Differential equation describing a water tank system d) To derive the output in Laplace…
Q: the output, f(t) a function, and B a constant. c) Let f(t) = u(t) – u(t – 1), the input v(t) = u(t)…
A: This system is time varient system.
Q: 9.1-6 Let v(1) = A cos (2ĦFt + 4) where A is a constant and F and are RVs. If O has a uniform…
A: Let v(t)=Acos(2πFt+ϕ), where A is a constant and F and ϕ are random variables. If ϕ has a uniform…
Q: Tollowing of systems. Classity each as overdamped, underdamped, undamped or critically damped…
A: Note: As per our company guidelines we are supposed to answer ?️only the first 3️⃣ sub-parts. Kindly…
Q: 6.22 (a) In a coherent FSK system, the signals s,(t) and s2(t) representing symbols 1 and 0,…
A: s1t=Ac.cos2πfc+∆f2t, 0⩽t⩽Tbs2t=Ac.cos2πfc-∆f2t, 0⩽t⩽TbCorrelation coefficient,ρ=∫0Tbs1ts2tdts12t…
Q: 1. Utilizing the Routh-Hurwitz criterion to determine whether the following polynomials are: P.(s) =…
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Q: 4. Transfer function of the pulmonary system that represents alveolar pressure Pa to Pao is given by…
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Q: A signal g(t) band-limited to B Hz is sampled by a periodic pulse train Pr, (t) made up of a…
A: The Fourier series coefficient of the rectangular pulse is given as: The Fourier series for the…
Q: The resistance, inductance, and capacitance in a parallel RLC circuitare 1 kΩ, 12.5 H, and 2 μF,…
A: GIVEN: The resistance, inductance, and capacitance in a parallel RLC circuitare 1 kΩ, 12.5 H, and 2…
Q: R, 10 kQ C 6 V 250 nF In the RC circuit shown in fig ,V, aburuptl S change value from 6V to 15V at…
A: capacitor 250nF Resistor 5KΩ, 10KΩ, 6.67KΩ Vs changes form 6V TO 15V
Q: Example1/ For the circuit shown ,if the switch on at t=0, determine Vr, ir and Vs as a function of…
A: In this question we need to find a Vr , Vs and Ir as a function of time.
Q: Q1:-Use the Routh-Hurwitz criterion to find the range of K for which the system of figure below is…
A: This question is based on the subject control system. And the chapter is routh array criteria. In…
Q: Sketch the root-locus Plot for the system shown in Figure below Ges) s? (s+3)
A: In this question, We need to draw the root locus of the given transfer function.
Q: Q3: Find the IDFT of X[k] = 1, k = 0, 1,...,7
A: Formula for Inverse Discrete Fourier transform is given by :- x[n] = 1N∑X(k)ek=0k=N-1j2π.k.nN Now…
Q: Transfer function of the pulmonary system that represents alveolar pressure Pa to Pao is given by…
A: The transfer function as a ratio of PA to Pao is given as: PAPao=0.8s2+4s+1 We have to find value of…
Q: Sketch the root locus for the system whose characteristic equation is given as: s³ +3s? + (k…
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Q: Graph the following functions for the given x[n]= {…,0,2,-2,0,1,3,-2,-3,1,-1,0,…} signal. a)…
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Q: A transfer function giving the relation between the wave disturbance w(t) and the roll 0(t) for a…
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Q: Given the following values R = 5 kN, L1 = L2 = 2 H, C1 = 2 nF and C2 = 8 nF. 4 (1) ら() + i, (1) L,…
A: In this question, All the resistance, inductance and capacitance given Find the poles of the…
Q: A forced excited m–k–c system is under a harmonic force F: F=5000sinωt If the mass m = 50 kg;…
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Q: (a) The dynamics of a discrete-time system are determined by the difference equation; 8yk+2-6y+1+yk…
A: Given,The difference equation for a discrete-time system is,8yk+2-6y+1+yk =9Andy0=1y1=1.5
Q: a) Y(ω) = 1/(5+jω) The expression above defines the frequency domain signal Y(ω) from a time…
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Q: d) An LTIC System is specified by the equation (D² + 5D + 6) y(t) = (D + 1) x(t) i. Find the…
A: The given equation is shown below, D2+5D+6yt=D+1xt
Q: Q1. Given the RLC network shown, calculate i, (t) for t > 0 if L and C are fully charged at t = 0-.
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Q: Example 1.0 for the linear translational mechanical system given below figure 1 with the parameter…
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Q: xj(t) X2(1) 1 N/m 1 kg 1 N-s/m 1 kg `Frictionless" The transfer function where X2(s) is the output…
A: First we will draw free body diagram and we will use force balance equations to find transfer…
Q: Consider the RLC circuit with R = 3 2, L = } H, C = { F, and E(1) = 2 cos ot V. Determine the cur-…
A: Given data: R=3ΩL=12HC=13FE(t)=2 cosωt
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- Consider two systems one is second order and the other is third order. The characteristic equations are: as2+bs+c for the second order and as3+bs2+cs+d for the third order, where a,b,c,d are positive real numbers. Then which of the following is correct with regard to the stability of these two systems? a. stability of either system cannot be confirmed with the given data b. third order is definitely stable but second order cannot be confirmed c. both systems are definitely stable d. second order is definitely stable but third order cannot be confirmedA)Perform the N=5 point circular convolution of x and h using DFT. B)Perform the N=5 point circular convolution of x and h in time-domain.f(x3, x2, x1, x0) = ∑m(4,8,10,11,12,15) Draw the circuit to implement by minimizing the function with the Quine McCluskey method.
- Find f(t) for each of the following functions. 1. F(s)=320s2(s+8). 2. F(s)=80(s+3)s(s+2)2. 3. F(s)=60(s+5)(s+1)2(s2+6s+25). 4. F(s)=25(s+4)2s2(s+5)2.Determine the gradient of the function f(x,y) = x2cosy + xsin2y at point (π/3 , π/6).Q3)Simplify the following Boolean expression to POS form using don’t care conditionsgiven. (check image for reference) F(W,X,Y,Z)=∑(0,1,3,4,7,11,13,15)+d(9,12,14)
- Derive the expression of the equivalent circuit. (R1;=5 kΩ ,R2=10 ΚΩ, rπ, =10 kΩ)Answer the following questions: 1. Simplify the function below using a three-variable K-Map. F (A,B,C) = (0,2,3,4,5,6,) 2. Simplify the function below using a four-variable K-Map. F (w,x,y,z) = (0,2,8,9,10,12,13)The mathematical models of some continuous time systems are given above. x(t) is the input signal of the system, and y(t) is the output signal of the system. Which of the following systems is linear and which is nonlinear? For linear systems, write "linear" in the space next to the option. For non-linear systems, write "non-linear" in the space next to the option.
- Graph the following functions for the given x[n]= {…,0,2,-2,0,1,3,-2,-3,1,-1,0,…} signal. a) y[n]=x[n](u[n+3]-u[n-2])-2∂[n]+3∂[n-3]x[n b) y[n]=2x[-n]+(x[n])²+x[-n+2]State equations dx1 / dt = 2x1 + 3x2 + u dx2 / dt = x1 + 4x2 + u y = x1 How many poles does the system given as?) Explain, with reasons, whether the LTIC systems described by the following equations are (i) stable orunstable in the BIBO sense; (ii) asymptotically stable, unstable, or marginally stable. Assume that the systemsare controllable and observable.a. (D2 + 8D + 12)y(t) = (D − 1)x(t)b. D(D2 + 3D + 2)y(t) = (D + 5)x(t)c. D2(D2 + 2)y(t) = x(t)d. (D + 1)(D2 − 6D + 5)y(t) = (3D + 1)x(t)