We know that,
Zeroes are denoted by a little circle on the axis as shown in the given problem located at point -b.
Poles are denoted by the cross on the axis as shown in the given problem located at a1 and a2.
A2. Find the Transfer function of the following pole - zero plot. B- B카
A2. Find the Transfer function of the following pole – zero plot. -B, FBitat -b-az-a,
A1. Find the Transfer function of the following pole - zero plot. 쐞 + -a.
A1. Find the Transfer function of the following pole - zero plot. 쁽
please help to solve this. Thank you A2. Find the Transfer function of the following pole - zero plot. FB,
please help to solve this. Thank you Al. Determine the Transfer function of the following pole - zero plot. :+ A2. Find out the Transfer function for the given Pole - Zero plot As, FATA (2) -a, -a,
please help to solve this. Thank you A1. Determine the Transfer function of the following pole - zero plot. (5 marks) FA FARTA! 1 -8, FB- tale A2. Find out the Transfer function for the given Pole-Zero plot (5 marks) j S-palne →Re
5. The diagram function Ha) oco.s on the let shows the pole-zero plot of the transfer a DT LTI systen Assume that the pole is at a dista the from theorigin and that the zero not at the origin is a origin. a) Write a mathematical expressio n for the tr the impulse response of the sy from t , inction of the system. b) Obtain assuming that it is UNSTABLE (15 pts.)
2. Consider the pole-zero plot of a transfer function H(s) given in Figure P14.2. (a) If the dc gain is -10, find HG). (b) Compute the impulse response. (c) Compute the step response. CHECK: Your answer to (b) should be the derivative of your answer to (c), since the delta function is the derivative of the step function. (d) If the input is 10 ), find the pos- itive number a such that the response does not have a term...
For each of the following transfer functions, plot the pole-zero pattern, draw curves of M(a) versus ω and θ(a) versus ω, and comment briefly on your results. For the function in part (c), include the numerical values for ω- 9.9, 10.0, and 10.1 rad/s. 2 H(s)= s2+2s +1 a. 2s2 H (s) = 0.25+100 C. For each of the following transfer functions, plot the pole-zero pattern, draw curves of M(a) versus ω and θ(a) versus ω, and comment briefly on...
5. Consider an LTI system with transfer function H(s). Pole-zero plot of H(s) is shown below. Im (a) How many ROCs can be considered for this system? (b) Assume system is causal. Find ROC of H(S) (c) Assume y(t) is system output with step unit as input. Given lim y(t) = 5 , 00 Find H(s).