(a)
Sketch
(a)
Answer to Problem 9E
The plot
Explanation of Solution
Given data:
Refer to Figure 17.29 in the textbook.
Formula used:
Write the general expression for Fourier series expansion.
Write the general expression for Fourier series coefficient
Write the general expression for Fourier series coefficient
Write the general expression for Fourier series coefficient
Write the expression to calculate the fundamental angular frequency.
Here,
Calculation:s
In the given Figure 17.29, the time period is
The function
Substitute 4 for T in equation (5) to find
Applying equation (6) in equation (2) to find
Simplify the above equation as follows,
Applying equation (6) in equation (3) to finding the Fourier coefficient
Equation (8) is simplified as,
Therefore, equation (8) becomes,
Consider the function,
Consider the following integration formula.
Compare the equations (10) and (11) to simplify the equation (10).
Using the equation (11), the equation (10) can be reduced as,
Simplify the above equation as follows,
Consider the function,
Compare the equations (12) and (11) to simplify the equation (12).
Using the equation (11), the equation (12) can be reduced as,
Substitute the value of x and y in equation (9) as follows,
The above equation becomes,
Applying equation (6) in equation (4) to finding the Fourier coefficient
Equation (14) is simplified as,
Therefore, equation (14) becomes,
Consider the function,
Consider the following integration formula.
Compare the equations (17) and (16) to simplify the equation (16).
Using the equation (17), the equation (16) can be reduced as,
Simplify the above equation as follows,
Consider the function,
Compare the equations (17) and (18) to simplify the equation (18).
Using the equation (17), the equation (18) can be reduced as,
Substitute the values of m and n in equation (15) as follows,
The above equation becomes,
Substitute the values of
The above equation becomes,
For
Therefore, equation (19) will be as follows,
For
Therefore, equation (19) will be as follows,
For
Therefore, equation (19) will be as follows,
Similarly, for
Therefore, equation (19) will be as follows,
Write the MATLAB Code to plot
t=linspace(-3,5,1000);
g0=0;
N=40;
for i=1:1000;
y3=0.193*cos(pi*t/2) + 0.419*cos(pi*t) - 0.167*cos(3*pi*t/2);
y5=0.193*cos(pi*t/2) + 0.419*cos(pi*t) - 0.167*cos(3*pi*t/2) + 0.184*cos(2*pi*t) - 0.143*cos(5*pi*t/2);
end
for i=1:1000;
sum=0;
for n=1:N;
sum=sum+((6*(-1)^n - 2*cos(3*n*pi))/(n*pi)^2)*cos(n*pi*t(i)/2) + (((-1)^n + cos(3*n*pi))/(n*pi))*cos(n*pi*t(i)/2);
end
gt(i)=g0+sum;
end
plot(t,y3,'b', t,y5,'r', t,gt,'g')
legend({'y3','y5','gt'},'Location','best')
xlabel('Time t in sec')
ylabel('The values y3, y5, and gt')
title('Plots for y3, y5, and gt')
Matlab output:
Figure 1 shows the plot
Conclusion:
Thus, the plot
(b)
Find the values of
(b)
Answer to Problem 9E
The values of
Explanation of Solution
Given data:
Refer to Figure 17.29 in the textbook.
Calculation:
From Part (a), the function
Finding
The value of
From Part (a),
Finding
From Part (a),
Finding
From part (a),
Finding
The value of
Finding
Conclusion:
Thus, the values of
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Chapter 17 Solutions
Loose Leaf for Engineering Circuit Analysis Format: Loose-leaf
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