Homework Answers
#Solution
den=[1 1 0] #Denominator polynomial
Num=[3 4] #Numerator polynomial
[R,K] =residue(num,den)# r,k are residues
syms s,t #changing s into t.
ilaplace((3*s+4)/(s^2+s))#finding inverse laplace..
## Output is 4-e^-t
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Write matlab code to solve problem
10- Find the inverse Laplace transform using the Partial-Fraction Expansion...
MATLAB c. Determine the Partial Fraction Expansion and the Laplace Inverse) of the following ace Inverse...
MATLAB
c. Determine the Partial Fraction Expansion and the Laplace Inverse) of the following ace Inverse (fo)) of the following function F(s), using MATLAB: F( s) = (s+ 2) (s+ 4) (s + 6)2
Problem 1: Find the inverse Z -transform using the partial fraction expansion for the transfer function...
Problem 1: Find the inverse Z -transform using the partial fraction expansion for the transfer function given as X(z (2z2 - 11z 12) (z 1)(z 2)3
Use the method of completing the square to find the partial fraction expansion and inverse transform....
Use the method of completing the square to find the partial fraction expansion and inverse transform. F(s) = (s+4)/(s^3+4*s^2+s)
Solve the initial value problem by the Laplace transform. (If necessary, use partial fraction expansion). 12"...
Solve the initial value problem by the Laplace transform. (If necessary, use partial fraction expansion). 12" - x = 0, 2(0) = 4, z'(0) = 0
In MATLAB Use symbolic math to solve and plot Laplace Problem 3.17. Problem 3.17 Obtain the inverse Laplace transform o...
In MATLAB Use symbolic math to solve and plot Laplace Problem 3.17. Problem 3.17 Obtain the inverse Laplace transform of each of the following 4(s-4) x1(s) 22+16) a. 4 4s b. x2s) (s2+9) (s+5)e 25 x3(s)(s+1)(s+3) c.
In MATLAB Use symbolic math to solve and plot Laplace Problem 3.17. Problem 3.17 Obtain the inverse Laplace transform of each of the following 4(s-4) x1(s) 22+16) a. 4 4s b. x2s) (s2+9) (s+5)e 25 x3(s)(s+1)(s+3) c.
4. Problem: By the partial fraction expansion method, obtain the inverse z transform of *(z)=1 (1...
4. Problem: By the partial fraction expansion method, obtain the inverse z transform of *(z)=1 (1 - z-')(1 - 0.22-1)
2. Obtain the inverse Laplace transform of each of the following functions by first applying the ...
2. Obtain the inverse Laplace transform of each of the following functions by first applying the partial-fraction-expansion method. (a) Fi(s) s+)(s+4) 4
2. Obtain the inverse Laplace transform of each of the following functions by first applying the partial-fraction-expansion method. (a) Fi(s) s+)(s+4) 4
inverse z-transform (2 Marks / Markah) 2. By using partial-fraction expansion, solve the inverse z-transform of...
inverse z-transform
(2 Marks / Markah) 2. By using partial-fraction expansion, solve the inverse z-transform of the following functions: [Dengan menggunakan kembangan pecahan separa, selesaikan jelmaan-2 songsang pada fungsi-fungsi berikut: (1) X(z) = z(z + 3)(z+5) (z-0.4)(z-0.5)(z-0.8) (3 Marks / Markah) X(z) z! 3 - 4z"+z ; ROC; 121 > 1 (3 Marks / Markah) (iii) X(E)= (1-3 1-2 (1 - 2:') - :') (3 Marks / Markah) 2+3:-) (iv) X() = (-X (3 Marks / Markah)
Problem 1: Find the Laplace transform X(s) of x(0)-6cos(Sr-3)u(t-3). 10 Problem 2: (a) Find the inverse...
Problem 1: Find the Laplace transform X(s) of x(0)-6cos(Sr-3)u(t-3). 10 Problem 2: (a) Find the inverse Laplace transform h() of H(s)-10s+34 (Hint: use the Laplace transform pair for Decaying Sine or Generic Oscillatory Decay.) (b) Draw the corresponding direct form II block diagram of the system described by H(s) and (c) determine the corresponding differential equation. Problem 3: Using the unilateral Laplace transform, solve the following differential equation with the given initial condition: y)+5y(0) 2u), y(0)1 Problem 4: For the...
problem 3: I need help with #4 using Matlab. 4. Given that the input x(t) in...
problem 3:
I need help with #4 using Matlab.
4. Given that the input x(t) in problem 3 above is a step function of magnitude 2 [x = 2 u(t), find the output y() by fnding the inverse Laplace transform of Y (s) by the method of partial fraction expansion by MATLAB as explained on page 8 of Handout 2 (ilaplace command).
MATLAB
c. Determine the Partial Fraction Expansion and the Laplace Inverse) of the following ace Inverse (fo)) of the following function F(s), using MATLAB: F( s) = (s+ 2) (s+ 4) (s + 6)2
Problem 1: Find the inverse Z -transform using the partial fraction expansion for the transfer function given as X(z (2z2 - 11z 12) (z 1)(z 2)3
Solve the initial value problem by the Laplace transform. (If necessary, use partial fraction expansion). 12" - x = 0, 2(0) = 4, z'(0) = 0
In MATLAB Use symbolic math to solve and plot Laplace Problem 3.17. Problem 3.17 Obtain the inverse Laplace transform of each of the following 4(s-4) x1(s) 22+16) a. 4 4s b. x2s) (s2+9) (s+5)e 25 x3(s)(s+1)(s+3) c.
In MATLAB Use symbolic math to solve and plot Laplace Problem 3.17. Problem 3.17 Obtain the inverse Laplace transform of each of the following 4(s-4) x1(s) 22+16) a. 4 4s b. x2s) (s2+9) (s+5)e 25 x3(s)(s+1)(s+3) c.
4. Problem: By the partial fraction expansion method, obtain the inverse z transform of *(z)=1 (1 - z-')(1 - 0.22-1)
2. Obtain the inverse Laplace transform of each of the following functions by first applying the partial-fraction-expansion method. (a) Fi(s) s+)(s+4) 4
2. Obtain the inverse Laplace transform of each of the following functions by first applying the partial-fraction-expansion method. (a) Fi(s) s+)(s+4) 4
inverse z-transform
(2 Marks / Markah) 2. By using partial-fraction expansion, solve the inverse z-transform of the following functions: [Dengan menggunakan kembangan pecahan separa, selesaikan jelmaan-2 songsang pada fungsi-fungsi berikut: (1) X(z) = z(z + 3)(z+5) (z-0.4)(z-0.5)(z-0.8) (3 Marks / Markah) X(z) z! 3 - 4z"+z ; ROC; 121 > 1 (3 Marks / Markah) (iii) X(E)= (1-3 1-2 (1 - 2:') - :') (3 Marks / Markah) 2+3:-) (iv) X() = (-X (3 Marks / Markah)
Problem 1: Find the Laplace transform X(s) of x(0)-6cos(Sr-3)u(t-3). 10 Problem 2: (a) Find the inverse Laplace transform h() of H(s)-10s+34 (Hint: use the Laplace transform pair for Decaying Sine or Generic Oscillatory Decay.) (b) Draw the corresponding direct form II block diagram of the system described by H(s) and (c) determine the corresponding differential equation. Problem 3: Using the unilateral Laplace transform, solve the following differential equation with the given initial condition: y)+5y(0) 2u), y(0)1 Problem 4: For the...
problem 3:
I need help with #4 using Matlab.
4. Given that the input x(t) in problem 3 above is a step function of magnitude 2 [x = 2 u(t), find the output y() by fnding the inverse Laplace transform of Y (s) by the method of partial fraction expansion by MATLAB as explained on page 8 of Handout 2 (ilaplace command).
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