33. If a first order system and its time response to a unit step are as shownbelow, the gain K is:Explanation: Y(s)/R(s)%3DK/1+sT+KBy use of partial fraction, K/T/s+(K+1/T)Taking inverse Laplace transform on both the sidesY(t)=K/K+1[1-e^(K+1/T)t) K=4r(t)y(t)K/1+sTa) 0.25b) 0.8c) 1d) 40.8-34. The unit impulse response of a system having transfer function K/(s+a) is shown below. The value ofa isExplanation: G(s) K/s+aC(s) =K/(s+a) Since R(s) =1C(t) =Ke^-atT=1/aExponential DecreaseC(t) =0.37KT= t2=1/a.a) t1b) t2c) 1/t1d) 1/120.63 K0.37 K2

As per our company guidelines we are supposed to answer only first question kindly repost other…

33. If a first order system and its time response to a unit step are as shown below, the gain K is: Explanation: Y(s)/R(s)3K/1+sT+K By use of partial fraction, K/T/s+(K+1/T) Taking inverse Laplace transform on both the sides Y(t)=K/K+1[1-e^(K+1/T)t) K=4 r(t) y(t) K/1+sT a) 0.25 b) 0.8 c) 1 d) 4 0.8

33. If a first order system and its time response to a unit step are as shown below, the gain K is: Explanation: Y(s)/R(s)3K/1+sT+K By use of partial fraction, K/T/s+(K+1/T) Taking inverse Laplace transform on both the sides Y(t)=K/K+1[1-e^(K+1/T)t) K=4 r(t) y(t) K/1+sT a) 0.25 b) 0.8 c) 1 d) 4 0.8

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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Concept explainers

Transfer function

A transfer function (also known as system function or network function) of a system, subsystem, or component is a mathematical function that modifies the output of a system in each possible input. They are widely used in electronics and control systems.

Convolution Integral

Among all the electrical engineering students, this topic of convolution integral is very confusing. It is a mathematical operation of two functions f and g that produce another third type of function (f * g) , and this expresses how the shape of one is modified with the help of the other one. The process of computing it and the result function is known as convolution. After one is reversed and shifted, it is defined as the integral of the product of two functions. After producing the convolution function, the integral is evaluated for all the values of shift. The convolution integral has some similar features with the cross-correlation. The continuous or discrete variables for real-valued functions differ from cross-correlation (f * g) only by either of the two f(x) or g(x) is reflected about the y-axis or not. Therefore, it is a cross-correlation of f(x) and g(-x) or f(-x) and g(x), the cross-correlation operator is the adjoint of the operator of the convolution for complex-valued piecewise functions.

Question

33. If a first order system and its time response to a unit step are as shown
below, the gain K is:
Explanation: Y(s)/R(s)%3DK/1+sT+K
By use of partial fraction, K/T/s+(K+1/T)
Taking inverse Laplace transform on both the sides
Y(t)=K/K+1[1-e^(K+1/T)t) K=4
r(t)
y(t)
K/1+sT
a) 0.25
b) 0.8
c) 1
d) 4
0.8-
34. The unit impulse response of a system having transfer function K/(s+a) is shown below. The value of
a is
Explanation: G(s) K/s+a
C(s) =K/(s+a) Since R(s) =1
C(t) =Ke^-at
T=1/a
Exponential Decrease
C(t) =0.37K
T= t2=1/a.
a) t1
b) t2
c) 1/t1
d) 1/12
0.63 K
0.37 K
2

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