10- To enter the transfer functions G(s)=a) G= th(2, [3,2])b)c)d)G(s) TH (2, [2, 3])G= tf (2, [3,2])G(s)= TF(2, [2, 3])23s+2c) A marginally stable responsed) A marginally unstable responseto Matlab command use:3s+111- To enter the transfer function g(s)= $2+35+2 ,can be usea)num=[3, 1]; den= [1, 3, 2]; g-tf (den, num)num=[3, 1]; den=[1, 3, 2]; g=tf (num, den)b)c)num=[3; 1]; den=[1, 3, 2]; g=tf (den, num)d) num=(3, 1); den=(1, 3; 2); g-tf (num, den)12- What is the output of the code (>>p=[0 1]; q=[ 1 -1 0]; step(p,q) )a) An unstable responseb) A stable response(s+1)

Q10) Option C G=tf (2,[3,2]) is correct the correct way of transfer function = num=2 and den=[3,2]…

2 3s+2 10- To enter the transfer functions G(s)= to Matlab command use: a) G= th(2, [3, 2]) b) G(s)= TH (2, [2, 3]) c) G= tf (2, [3, 2]) d) G(s)= TF(2, [2, 3]) 3s+1 11- To enter the transfer function g(s)= $2+3s+2 ,can be use b) a) num=[3, 1]; den=[1, 3, 2]; g=tf (den, num) num=[3, 1]; den=[1, 3, 2]; g=tf (num, den) c) num=[3; 1]; den=[1, 3, 2]; g=tf (den, num) num=(3, 1); den=(1, 3; 2); g=tf (num, den) d) 12- What is the output of the code (>>p=[0 1]; q=[ 1 -1 0]; step(p,q)) a) An unstable response b) A stable response c) A marginally stable response d) A marginally unstable response

2 3s+2 10- To enter the transfer functions G(s)= to Matlab command use: a) G= th(2, [3, 2]) b) G(s)= TH (2, [2, 3]) c) G= tf (2, [3, 2]) d) G(s)= TF(2, [2, 3]) 3s+1 11- To enter the transfer function g(s)= $2+3s+2 ,can be use b) a) num=[3, 1]; den=[1, 3, 2]; g=tf (den, num) num=[3, 1]; den=[1, 3, 2]; g=tf (num, den) c) num=[3; 1]; den=[1, 3, 2]; g=tf (den, num) num=(3, 1); den=(1, 3; 2); g=tf (num, den) d) 12- What is the output of the code (>>p=[0 1]; q=[ 1 -1 0]; step(p,q)) a) An unstable response b) A stable response c) A marginally stable response d) A marginally unstable response

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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