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Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Civil Engineering (CE) MCQ


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20 Questions MCQ Test Engineering Mathematics - Test: Fourier Series, Numerical Methods & Complex Variables- 1

Test: Fourier Series, Numerical Methods & Complex Variables- 1 for Civil Engineering (CE) 2024 is part of Engineering Mathematics preparation. The Test: Fourier Series, Numerical Methods & Complex Variables- 1 questions and answers have been prepared according to the Civil Engineering (CE) exam syllabus.The Test: Fourier Series, Numerical Methods & Complex Variables- 1 MCQs are made for Civil Engineering (CE) 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Fourier Series, Numerical Methods & Complex Variables- 1 below.
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Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 1

The Fourier series of a real periodic function has only 

P. cosine terms if it is even  

Q. sine terms if it is even  

R. cosine terms if it is odd  

S. sine terms if it is odd 

Which of the above statements are correct? 

Detailed Solution for Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 1

Because sine function is odd and cosine is even function. 

Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 2

For the function e–x, the linear approximation around x = 2 is 

Detailed Solution for Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 2

(neglecting higher power of x) 

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Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 3

In the Taylor series expansion of exp(x) + sin(x) about the point x = π, the coefficient of (x – π)2 is  

Detailed Solution for Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 3

Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 4

The function x(t) is shown in the figure. Even and odd parts of a unit-step function u(t) are respectively,  

Detailed Solution for Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 4

Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 5

In the Taylor series expansion of ex about x = 2, the coefficient of (x - 2)4 is 

Detailed Solution for Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 5

Taylor series expansion of f(x) about a is given by

Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 6

The Fourier series expansion of a symmetric and even function, f(x) where 

 Will be 

Detailed Solution for Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 6

f(x) is symmetric and even, it’s Fourier series contain only cosine term.  Now.

Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 7

The Fourier series expansion    of the periodic signal shown below will contain the following nonzero terms  

Detailed Solution for Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 7

from the figure, we can say that   f(t) is an symmetric and even function of t.  as cost is even function so choice (b) is correct. 

Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 8

The Fourier series for the function f(x)=sin2x is  

Detailed Solution for Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 8

Here f(x ) = sin2 x is even function, hence f( x ) has no sine term. 

Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 9

X(t) is a real valued function of a real variable with period T. Its trigonometric Fourier Series expansion contains no terms of frequency ω = 2π (2k ) /T ; k = 1, 2,.... Also, no sine terms are present. Then x(t) satisfies the equation 

Detailed Solution for Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 9

No sine terms are present.

∴x(t ) is even function.

Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 10

 The residue of the function f(z) 

Detailed Solution for Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 10

Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 11

The residues of a complex function  ​ at its poles are   ​

Detailed Solution for Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 11

x(z) has simple poles at z = 0,1, 2.

Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 12

The value of the contour integral    in positive sense is  

Detailed Solution for Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 12

Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 13

The integral    evaluated around the unit circle on the complex plane for   

Detailed Solution for Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 13

Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 14

An analytic function of a complex variable z = x + iy is expressed as f(z) = u (x, y) + i v(x, y) where i =√−1 . If u = xy, the expression for v should be 

Detailed Solution for Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 14

Here u and v are  analytic  as f(z) is analytic. 

∴ u, v satisfy Cauchy-Riemann equation.

Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 15

The analytic function     has singularities at   

Detailed Solution for Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 15

Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 16

The value of the integral    (where C is a closed curve given by |z| = 1) is 

Detailed Solution for Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 16

Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 17

 Roots of the algebraic equation x3 +x2 +x+ 1 = 0 are 

Detailed Solution for Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 17

Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 18

The algebraic equation    

F (s ) = s5 − 3s4+ 5s3− 7s2 + 4s + 20 is given F ( s ) = 0 has  

Detailed Solution for Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 18

we can solve it by making Routh Hurwitz array.

We can replace 1st element of s1 by 10.

If we observe the 1st column, sign is changing two times.

So we have two poles on right half side of imaginary 

Axis and 5s2+20=0  

So, s =±2j and1 pole on left side of imaginary axis .

Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 19

Detailed Solution for Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 19

 

Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 20

Detailed Solution for Test: Fourier Series, Numerical Methods & Complex Variables- 1 - Question 20

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