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Here is the phase portrait of a homogeneous linear system of differential tions. 4. equa- (a) Cla...
II. Answer the following questions concerning the simultaneous differential equa- dac tions below. Here, à dt...
II. Answer the following questions concerning the simultaneous differential equa- dac tions below. Here, à dt dr -2- 3y 2, dt dt2 dy da (2) 2y, dt df x(0)0, (0)0, y(0) = 2. -- 1. Let us transform the simultaneous differential equations in Eq.(2) into. da Ax b, (0) dt Here ais defined as the form x(t) (t) y(t) x(t) (3) A is a constant matrix, and b and c are constant vectors. Obtain A, b and c Calculate all...
Question 5 (Unit 6) - 31 marks (a) Express the following inhomogeneous system of first-order differential...
Question 5 (Unit 6) - 31 marks (a) Express the following inhomogeneous system of first-order differential equations for x(t) and y(t) in matrix form: = 2x + y + 3e", y = 4x – y. Write down, also in matrix form, the corresponding homogeneous system of equations. (b) Find the eigenvalues of the matrix of coefficients and an eigenvector corresponding to each eigenvalue. (c) Hence write down the complementary function for the system of equations. (d) Find a particular integral...
Question 5 (Unit 6) - 31 marks (a) Express the following inhomogeneous system of first-order differential...
Question 5 (Unit 6) - 31 marks (a) Express the following inhomogeneous system of first-order differential equations for x(t) and y(t) in matrix form: = 2x + y + 3e", y = 4x – y. Write down, also in matrix form, the corresponding homogeneous system of equations. (b) Find the eigenvalues of the matrix of coefficients and an eigenvector corresponding to each eigenvalue. (c) Hence write down the complementary function for the system of equations. (d) Find a particular integral...
3. Homogeneous linear systems with complex and repeated eigenvalues. Find the general solu- tion of the given system of...
3. Homogeneous linear systems with complex and repeated eigenvalues. Find the general solu- tion of the given system of differential equations. For the two-dimensional systems, classify the origin in terms of stability and sketch the phase plane (a) x'(t) y'(t) 6х — у, 5х + 2y. = (b) 4 -5 x'(i) х. -4 (c) 1 -1 2 x'() -1 1 0x -1 0 1
3. Homogeneous linear systems with complex and repeated eigenvalues. Find the general solu- tion of the...
II. Answer the following questions concerning the simultaneous differential equa- dac tions below. Here, à dt dr -2- 3y 2, dt dt2 dy da (2) 2y, dt df x(0)0, (0)0, y(0) = 2. -- 1. Let us transform the simultaneous differential equations in Eq.(2) into. da Ax b, (0) dt Here ais defined as the form x(t) (t) y(t) x(t) (3) A is a constant matrix, and b and c are constant vectors. Obtain A, b and c Calculate all...
Question 5 (Unit 6) - 31 marks (a) Express the following inhomogeneous system of first-order differential equations for x(t) and y(t) in matrix form: = 2x + y + 3e", y = 4x – y. Write down, also in matrix form, the corresponding homogeneous system of equations. (b) Find the eigenvalues of the matrix of coefficients and an eigenvector corresponding to each eigenvalue. (c) Hence write down the complementary function for the system of equations. (d) Find a particular integral...
Question 5 (Unit 6) - 31 marks (a) Express the following inhomogeneous system of first-order differential equations for x(t) and y(t) in matrix form: = 2x + y + 3e", y = 4x – y. Write down, also in matrix form, the corresponding homogeneous system of equations. (b) Find the eigenvalues of the matrix of coefficients and an eigenvector corresponding to each eigenvalue. (c) Hence write down the complementary function for the system of equations. (d) Find a particular integral...
3. Homogeneous linear systems with complex and repeated eigenvalues. Find the general solu- tion of the given system of differential equations. For the two-dimensional systems, classify the origin in terms of stability and sketch the phase plane (a) x'(t) y'(t) 6х — у, 5х + 2y. = (b) 4 -5 x'(i) х. -4 (c) 1 -1 2 x'() -1 1 0x -1 0 1
3. Homogeneous linear systems with complex and repeated eigenvalues. Find the general solu- tion of the...
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