open loop to closed loop transfer function
T.f= G/(1+GH)
G= OPEN LOOP TRANSFER FUNCTION
H= FEED BACK GAIN
remaining reduction is given in hand written solution please go through it.
need some more information for analysing designing criteria
can you solve this for me please? e) Determine the feedback coefficients that must be implemented...
Feedback Control of Dynamic System
Please Let me know how to solve this problem
(5) For the following unity-feedback control system, Y(s) R(s)E D(s) (s+ 2) we want to design a controller D(s) D(s)+a) that makes the closed-loop stable for certain positive K values. Design the parameters a and b to satisfy the design condition through the root- locus method
(5) For the following unity-feedback control system, Y(s) R(s)E D(s) (s+ 2) we want to design a controller D(s) D(s)+a)...
please help to solve this . thank you
A3. Determine the unit impulse response of the first order system having Transfer system 1/(1-5T). (5 marks) A4. Determine the Closed Loop Transfer function of a unity feedback system having open loop Transfer system (s2+1). (5 marks) A5. Find the Transfer function for the closed loop control system given below (5 marks) E(S) R(S) G(S) C($) BIS) H(S)
Can you answer E please
Problem S: For the feedback control system with H)1 and Ge()Ge) -(2 (s+2)2 a) (5 points) What is the closed loop transfer function? b) (5 points) What are the poles of the closed-loop transfer function? c) (10 points) Find the settling time via the 5% criterion (t,-(h) d) (10 points) Compute the steady-state error corresponding to a unit step input. e) (10 points) We want to design the system such that t, 1sec and the...
Hello, Can you please help me solve this probelm: Solve the system of equations. Please show all work. ALSO PLEASE USE GAUSSIAN ELIMINATION METHOD TO SOLVE!!! x+y+z=0, 2x+5y+2z=-9, -x+8y-3z=-25
Can you help me to solve this
question, please:)
B3. (a) Given the magnetic circuit below: Path P= 50 cm 5A 300 turns coil A= 6 cm Fig. B3(a) (1) Determine the magnetomotive force (MMF) produced by the coil; (3 marks) (ii) Calculate the average magnetic field strength (H) in the ring: (3 marks) (iii) If the relative magnetic permeability (lly) of the ring material is 1200, find the average magnetic flux density (B) in the ring. Given lo =...
**This is a dynamics problem. To solve this problem, a
coordinate system must be implemented (cartesian, spherical, or
path coordinates). Please include explanations/steps. Thank you in
advance!**
A device of mass M (the blue object contains a pellet of mass m (the red object). Initially, both are stationary while suspended in a standard gravitational field below a fixed support by a string of Length L. A mechanism inside the device then ejects the pellet with a velocity relative to the...
Can someone help me solve this please? Problem 6: (Feedback) A causal discrete l controller C(z)s z closed-loop crossover frequency 1 for a plantP(z) = ze is being designed to achieve high I. (20pt) Determine K so that the crossover frequency is 0.4 rad/sample. 2. (20pt) Find the phase margin for the controller in (1).
Could you please show me how to find the coefficients of the of
the curve of the point 1 and point 2 using the exponential function
y(x) = be^(mx)
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response
Thank you
Point 1 (2.5O, 9.30) Pont 2 2.30, .20)
please help to solve . Thank you
A7. What is the steady-state error to a unit ramp input, r) - 100). for the following feedback system? (10 marks) R(s) E(s) Y(s) Σ 10 $+1
can you solve the last question
(e)
Q1. Consider a steady, two-dimensional, incompressible flow field has the velocity potential a) b) c) 2 (x-7)(x+y) Determine the velocity components and verify that continuity is satisfied. [4 marks] Verify that the flow is irrotational. [2 marks] Determine the corresponding stream function. [4 marks) Now, consider a steady, two-dimensional, incompressible flow defined by velocity components u = ax + b&v=-ay + cx, where a, b and care constants. Neglect gravity. d) e) Show...