If we use the method of variation of parameters, the particular solution of the following differential equation y" = 5x is: 5 Y,(x) = x* 24 O This option 2 Yp(x) = x 3 3.
Q: Given the following second-order difference equation: y[n] + 1.4y[n – 1] + 0.45y[n – 2] = x[n] – x[n…
A:
Q: A discrete-time system is described by the following rule y(n) = (-1)"x(n) + 2 x(n – 1) where x is…
A:
Q: 3. Consider the system described by 2 -1 X + |-1 1 A y = [1 1]x Is the system observable? Is it…
A: CONTROLLABILITY: By applying suitable control forces(input), if the present state of the system can…
Q: Q2 A dynamic system is represented by the following differential equation. y" – 10 y' + 9 tan y =…
A: Given: A dynamic system is represented by the following differential equation: y''-10y'+9tany=ut…
Q: The system described by y(t) = sin(x(t)) + tx(t+1) is A. Linear, Time-Variant, and Causal B. Linear,…
A: Describe about y(t) = sin(x(t)) +tx(t+1)
Q: 40 We want to design a causal discrete-time LTI system with the property that if the input is 1) |…
A: As per the guidelines, we supposed to answer first three part of the question at a time so please…
Q: A spring-mass-damper system has transfer function as follow: 1 TF (3s²+4s+k) Spring constant is…
A:
Q: A system is described by the difference equation y[n] = a[n] – a[n – 2] + a[n – 4] – a[n – 6] %3D -…
A:
Q: 2.56. The impulse response of a discrete-time LTI system is given by h[n]=| u[n] 2 Let y[n] be the…
A: When a discrete signal x[n] is applied to the discrete system of impulse response h[n] then the…
Q: Calculate the step response to the system described by the linear constant coefficient difference…
A: A discrete signal is converted into a frequency domain using the Z transform. The Z transform of…
Q: A discrete system is represented by the following difference equation: y[n + 3]– 2y[n+1]+3y[n] =…
A: The difference equation for the discrete system is, Considering the discrete ramp signal as input,
Q: Q6/ Assume system transfer function (output to input) is given by: Y(s) K, w R(s) s2 + 23wns + w…
A: Given transfer functionY(s)R(s)=k0ωn2s2+2ζωns+ωn2input r(t)=3.5t2k0=2,ζ=0.13,ωn=3.3
Q: M B f(t)
A:
Q: 2.57 Determine the response y(n), n > 0 of the system described by the second-order difference…
A:
Q: A closed-loop transfer function of a system in Figure 4 is given by, 30 G(s) = C(s) = 1 %3| 2s2 + 6s…
A: For a closed loop transfer function of a system To determine I) damping ratio II) peak time III)…
Q: Q2: Find the impulse response of the system described by the following :differential equation 4 y/n]…
A: The impulse response is the inverse z-transform of the transfer function of a discrete-time system.…
Q: 2. Consider the following electrical system: R, i C= Uc The equations describing the system dynamics…
A:
Q: Q35) Find the unit-impulse response and draw the block diagram for each of the following linear…
A:
Q: A system is described by the difference equation y[n] = a[n] – a[n – 2) + a[n- 4]- a[n – 6] %3D The…
A: The Z transform is used to convert the discrete signal in to frequency domain. The Z transform of…
Q: You have the transient response of a closed-loop system as shown in the figure, the entry being a…
A: “Since you have posted a question with multiple sub-parts, we will solve the first three sub-parts…
Q: The differential equation obtained by eliminating the arbitrary constants A and B from the relation…
A: Choose the correct option Eliminate the A and B using the differential equation
Q: Q4. A linear time-invariant system is represented by the following differential equation y"(t) +…
A: State variable analysis is a modern method of analysis of the control system, just similar to the…
Q: A system is described by the difference equation y[n] = a[n] – a[n – 2] + a[n – 4] – a[n – 6] %3D -…
A: The Z transform is used to convert the discrete signal in to frequency domain. The Z transform of…
Q: 1. Determine the zero-input response of the system described by the homogeneous second order…
A: Zero input response
Q: If the general solution of the differential equation having 7 arbitrary constants, then the order of…
A: The arbitrary constants in the general solution of the differential equation is equal to the order…
Q: Q3:\ The input and output of a system in an experiment made to estimate the system parameters are…
A:
Q: Find the solution to the difference equation given below y[n] – 0.25y[n – 2] = x[n] when the…
A:
Q: A causal system is representing by the following difference equation: У(п)+0.25 у(n-1) -x(n)+0.5…
A: As per our company guidelines we are supposed to answer only first 3 subpart kindly repost the other…
Q: A system is described by the difference equation y[n] = a[n] – a[n – 2] + ¤[n – 4] – ¤[n – 6] %3D -…
A: The Z transform is used to convert the discrete signal in to frequency domain. The Z transform of…
Q: Q4: Consider the LTI system shown below. x (п) h(n) y(n) This system has the impulse response h(n) =…
A: We need to find convolution of given sequences .
Q: Consider the circuit shown, which may be regarded as a one-input, two-output system. 1Ω 1 H elle i,…
A:
Q: Consider the following differential equation: 3 y + 2 y" + 5 y' - y= 2 u 1. Convert the system into…
A:
Q: Part B A linear time-invariant discrete-time system has an impulse response h(n) = {co.6)" , n 5…
A: A linear time-invariant discrete-time system has an impulse response Now, x (n) can be represented…
Q: 1) An LTI (Linear Time Invariant) system is given below with an input x[n] and output y[n] y[n]…
A: “Since you have posted a question with multiple sub-parts, we will solve the first three sub-parts…
Q: Find the unit-impulse response for each of the following linear systems. a. y(n) = 0.5x(n) — 0.5x(n…
A:
Q: 40 - When the unit step function is applied to the system input given the block diagram below, the…
A:
Q: The response of the system is given by Y(s) = Find the final value of the system output. (5+3)(5+4)…
A: Given data, Transfer function, Ys=s+3s+4ss+22s+1
Q: Determine the exact solution of the following differential equation y = 2 - y at y(0) =1. So the…
A:
Q: EXAMPLE 1. Use differential equation approach to find Vo(t) for t > 0. Plot the response. SW1 6 kQ 9…
A: Transient analysis Formulas used:
Q: Example :Consider the control system shown in figure below. Sketch the root-locus plot and determine…
A:
Q: Could you answer this question and show the calculations clearly. Thanks a lot. Btw, this question…
A: a) y(n)=13x(n)+x(n-1)+x(n-2)x(n)=u(n)-u(n-1)
Q: Q4. For each pair of second-order system specifications that follow, find the location of the…
A:
Q: Find the unit-impulse response for each of the following linear systems. a. y(n) = 0.5x(n) – 0.5x(n…
A: Given: Unit-impulse response is required for the given linear systems.
Q: 4. Using the DIFFERENTIAL EQUATION METHODS, solve for the particular solution of the differential…
A: The given differential equation is The solution of differential equation is equal to complementary…
Q: A channel is termed noise free if its entropy 'a posteriori' is greater than zero. Select one: O…
A: A channel is termed noise free if its entropy a posteriori is greater than zero this statement is…
Q: A Positioning system drives a tester in electronic manufacturing processes. The system is made of a…
A: We are authorized to answer three subparts at a time, since you have not mentioned which part you…
Q: The closed-loop transfer function of a system is given by G(s) = 14.145 / (s+5)*(s^2 +0.842s+2.829).…
A: The closed-loop transfer function of the given system is, G(s)=14.145s+5s2+0.842s+2.829 On…
Q: Consider the 2nd order system below: 3 G(s) s² + 2s – 3 rmine the following: a) DC gain, b) Final…
A: Dc gain is the ratio of steady state response to the step input Here the transfer function is given…
Q: Vcc J' R1 R2 Rin
A: Need to find Rin
Step by step
Solved in 2 steps
- The answer of this question on bartleby is of other parts. This is different question. Don't copy that answer. I already have that. I am posting it for the third time. A. Write the state variable equation(s) B. The system equation(s) you obtained in D are (Circle one choice for each statement): Ordinary Differential Equation(s) True False Linear True False Second Order True False Constant Coefficients True FalseA. Give 3 possible problems rn that can relate on electrical engineering and give a solution that can aware public.8.17 MECT361 Mechatronics Components and Instrumentation Prove Equation 8.14. 8.14. Visit Microchip’s website ( www.microchip.com ) and find specifications for the MCP32X series of A/D converters. What is their resolution? What type of architec- ture is used in obtaining the binary representation of the analog value? PLEASE GIVE ME THE REFRENCE I Will get zero if you didn't put the refrence
- Express the following signal in terms of the unit ramp function, ur(n).For the Circuit shown, Let: VCC = 3.3V R1 = 85 kΩ RE = 500 Ω R2 = 35 k Ω RC = 4k Ω β = 150 Using approximation, determine the Q-point parameters: IBQ, ICQ, and VCEQ. Indicate the exact numerical values, following the given unit.The structural engineering design section within the engineering department of a regional electrical utility corporation has developed several standard designs for a group of similar transmission line towers. The detailed design for each tower is based on one of the standard designs. A transmission line project involving 50 towers has been approved. The estimated number of engineering hours needed to accomplish the first detailed tower design is 126. Assuming a 95% learning curve, a. What is your estimate of the number of engineering hours needed to design the eighth tower and to design the last tower in the project? b. What is your estimate of the cumulative average hours required for the first five designs?
- Draw the signal flowchart of the system shown below. Using the flowchart, you can calculate C (s).find.Could you answer this question and show the calculations clearly. Thanks a lot. Btw, this question is about the communication theory(electrical electronic engineering) Compute for this system, a) h[n], the impulse response b)Calculate y[n] for given x[n] analytically c) Calculate y[n] using graphical convolution d)Is this system causal? Why? e) What is this system used for?Evaluate and sketch the block diagram representation of the Direct Form I and IIfor the following IIR system function:
- 33 Determine the natural angular frequency, the damping factor, the rise time, percentage overshoot and 2% settling time for systems with the following transfer functions: (a) 100/(s + 4s + 100), (b) 49/(s + 4s + 49). * Note (that the question relates to control system)y[(t) = {3e-2t, t0 {0, otherwise The function above defines a voltage signal y(t) monitored from a pacemaker. a.Make a sketch of the signal & state if it is non-causal/causal, aperiodic/periodic & odd/even. b. y[n] = 6cos2(πn/4) The above defines a discrete time signal y[n] from a device. Determine the four point DFT of the sequence.2. The output impedance of 600 ohms radio transmitter with signal strength reading on a meter of impedance 75ohms by 0.81 neper of unbalance non-symmetrical Pi-pad attenuator circuit. Determine the required resistor values to design this attenuator.