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35. Compute the impulse response, h(t), of the circuit below in which R1-4 Ω, R2-8 Ω,...
Q3. In the circuit as shown below, given that R1 = 4 Ω, R2-4 Ω, L 2 H, and C = 0.5 F, where vs(t) is given by the waveform displayed in the same figure 1 V (a) Determine the s-domain current I(so) at so-0.05 jo.07 (rad/s): IL(So)- Submit Answer Tries 0/3 (b) Determine the t-domain current i(to) at to 4.5 (s): Submit Answer Tries 0/8 Q4. Determine the output voltage in the circuit as shown below, given that Vs-35*u(t)...
Signals and Systems
1. A continuous time system is given inputs x1(t), r2 (t), and x3(t), from which the outputs yi (t), y2(t), and y3( arise, respectively, where 1(t)u(t) u(t-1) i(t)2u(t) -e20-u(t - 1) 2(t)u(t) - u(t- 3 T3 0 otherwise sin(5t) te,1 y3(t) 0 otherwise e-5t (u(t)-a(t-1)) ya(t) = (a) Is this system causal? Prove your answer. (b) Is this system linear? Prove your answer. c) Is this system time-invariant? Prove your answer.
1. A continuous time system is...
can someone help please
Q2 (14%) Consider the circuit below where R1=25 Ω, R2=1,5 Ω, c,-18F, and C2=1/10F a) Find the transfer function between the input voltage and output voltage, that is, H(s) - Vo(s)/N(s) (b) Draw the bode plots for the transfer function. 0-2 0. Ri 2. m@ cT쿠 e(t) Ci c2
Consider the RL circuit in the diagram, where R1-110 Ω,R2 220 Ω,L = 25 H, and E = 350 V The switch is closed at t 0 s 4. [5pt] Find the energy stored in the inductor at the following times i5.0 ms (i.e., a long time after the switch has been closed) [ans. 0 J, 59.9 mJ, 126.5 J] Question to be Graded Manually 5. [5pt] For the same circuit, find the potential difference across R1 at the following...
Question 3) Given a system with an impulse response of: h(t) = te-2t(U(t)-U(t-4)). Use MATLAB to compute the output of the system with an input of: x(t)-3(U(t -2)-U(t - 5)
Question 3) Given a system with an impulse response of: h(t) = te-2t(U(t)-U(t-4)). Use MATLAB to compute the output of the system with an input of: x(t)-3(U(t -2)-U(t - 5)
2.4. Compute and plot y[n] - x[n] * h[n], where x[n] - 0, otherwise 1. 4 sn s 15 0, otherwise h[n] = 2.6. Compute and plot the convolution y[n] - x[n] * h[n], where 2.1. Let x[n] = δ[n] + 2δ[n-1]-δ[n-3] and h[n] = 2δ[n + 1] + 2δ[n-l]. Compute and plot each of the following convolutions: (a) y [n] x[n] * h[n] (c) y3 [n] x[n] * h[n + 2]
Problem: Let x[n] = δ[n] + 2δ[n-1] - δ[n-2] and h[n] = u[n] – u[n-4] – 2.δ[n-1]. Compute and plot the following convolutions. If you use the analytical form of the convolution equation to solve, verify your answer with the graphical method. a. y1[n] = x[n]*h[n] b. y2[n] = x[n]*h[n+1] c. y3[n] = x[n-1]*h[n]
6.) In part (a) of the figure below, h(t) is the impulse response of a LTI system with input g(t) x(t)w(t), and input x(t) has FT X(ao) shown in part (b) of the figure. The circled "X" means multiplication X(0) g(t) (X) (X УС) h(t) 1 w(t) cos(5nt) л (a) b) Sketch the FT G(0) of g(t) and the FT Y(o) of y(t for the following cases: cos(5nt) and h(t)= Sin(6m) a) w(t) sin(5z) b) w() cos(5tt) and h(t) =
Let the array size m = 23 = 8. Compute the linear probe sequence h(k, i) = ( h'(k) + i ) mod m, i = 0, 1, … m−1. Presume h'(k) = 4. Compute the quadratic probe sequence h(k, i) = ( h'(k) + i(i+1)/2 ) mod m. Presume h'(k) = 4. Compute the double-hashing probe sequence h(k, i) = ( h1(k) + i h2(k) ) mod m, for each of k1 and k2, presuming h1(k1) = h1(k2) =...
For the circuit shown below: In terms of Vo, R1, R2, R3, R4, C1, t, and s what is the time domain equation for the voltage at node out? Preview In terms of Vo, R1, R2, ,R3, R4, C1, t, and s what is the s-domain equation for voltage at node out? In terms of Vo, RI, R2, R3, R4, CI, t, and s what is the equation for τ? If the voltage V1 at time-0 is 1 V R1-1...