Find the (real-valued) general solution to the system of ODEs given by: X’=[{-1,-1},{2,-3}]X (X is a...

Find the general solution to the following linear system around the equilibrium point: x '1 =...

Find the general solution to the following linear system around the equilibrium point: x '1 = 2x1 + x2 x '2 = −x1 + x2 (b) If the initial conditions are x1(0) = 1 and x2(0) = 1, find the exact solutions for x1 and x2. (c) Plot the exact vector field (precise amplitude of the vector) for at least 4 points around the equilibrium, including the initial condition. (d) Plot the solution curve starting from the initial condition x1(0)...

Find a general solution to the system X' = A X(t) for the given matrix A...

Find a general solution to the system X' = A X(t) for the given matrix A -3 5 -2 3

Find the equilibrium vector for the given transition matrix. P equals left bracket Start 2 By...

Find the equilibrium vector for the given transition matrix. P equals left bracket Start 2 By 2 Matrix 1st Row 1st Column 0.42 2nd Column 0.58 2nd Row 1st Column 0.32 2nd Column 0.68 EndMatrix right bracket The equilibrium vector is nothing.

Find the solution to the following system by converting the system to matrix form: x'1= 2x1+4x2,...

Find the solution to the following system by converting the system to matrix form: x'1= 2x1+4x2, x1(0)=0 x'2= x1-x2, x2(0)=-2

Solve the system dx/dt = [ row 1: -5 -1 row 2: 1 -5] x with...

Solve the system dx/dt = [ row 1: -5 -1 row 2: 1 -5] x with x(0) = [ row 1: 3 row 2: 1] give your solution in real form: x1 = and x2 =

Given a nonlinear system   x(t)" + cx(t)' + sin(x(t)) = 0                       (3-1) a) Consider its phase...

Given a nonlinear system   x(t)" + cx(t)' + sin(x(t)) = 0                       (3-1) a) Consider its phase plane by assuming proper parameters of c. Do you have singular points with the cases of CENTER FOCUS, NODE and SADDLE ? Are those stable? asymptotic stable or unstable? b) When c = 0, plot the phase plane and find these singular points

For the following nonhomogeneous system of ODEs y' = [TABLE 1 MATRIX] y + [TABLE 2...

For the following nonhomogeneous system of ODEs y' = [TABLE 1 MATRIX] y + [TABLE 2 MATRIX] t, Table 1 & 6,1 is Table 2 1 4 1 1 6 1 (c) Find the general solution y(k), for the corresponding homogeneous ODE. (d) Use the method of undetermined coefficients to find the particular solution, y(p).

1.) either solve the given system of equations, or else show that there is no solution....

1.) either solve the given system of equations, or else show that there is no solution. x1 + 2x2 - x3 = 2 2x1 + x2 + x3 = 1 x1 - x2 + 2x3 = -1 2.) determine whether the members of the given set of vectors are linearly independent. If they are linearly dependent, find a linear relation among them. (a.) x(1) = (1, 1, 0) , x(2) = (0, 1, 1) , x(3) = (1, 0, 1)...

The matrix [−1320−69] has eigenvalues λ1=−1 and λ2=−3. Find eigenvectors corresponding to these eigenvalues. v⃗ 1=...

The matrix [−1320−69] has eigenvalues λ1=−1 and λ2=−3. Find eigenvectors corresponding to these eigenvalues. v⃗ 1= ⎡⎣⎢⎢ ⎤⎦⎥⎥ and v⃗ 2= ⎡⎣⎢⎢ ⎤⎦⎥⎥ Find the solution to the linear system of differential equations [x′1 x′2]=[−13 20−6 9][x1 x2] satisfying the initial conditions [x1(0)x2(0)]=[6−9]. x1(t)= ______ x2(t)= _____

Find the general solution of the given system of equation ?⃗'= [ 3 6..   -1 -2]...

Find the general solution of the given system of equation ?⃗'= [ 3 6..   -1 -2] pls show work