find a basis of solutions for the 12th order homogeneous linear ODE with the following characteristic...

Consider the following second order linear homogeneous ODE ?′′(?) − ??′(?) − ???(?) = ?, ?(?)...

Consider the following second order linear homogeneous ODE ?′′(?) − ??′(?) − ???(?) = ?, ?(?) = ?, ?′(?) = ?? Solve the equation using the characteristic equation Transform the equation into a system (by setting ?1(?) = ?, ?2(?) = ?′ ) and solve it again State the nature of the critical point ?0, plot he portrait and say if ?0 is stable, stable and attractive or unstable (justify your answers) Solve the equation using Laplace transform Compare the...

For parts a and b, find a basis for the solution set of the homogeneous linear...

For parts a and b, find a basis for the solution set of the homogeneous linear systems. Show all algebraic steps. a. x1 + x2 + x3 = 0. x1 - x2 - x3 = 0 b. x1 + 2x2 - 2x3 + x4 = 0. x1 - 2x2 + 2x3 + x4 = 0. for parts c and d use your solutions to parts a and b to find all solutions to the following linear systems. show all algebraic...

What are the contributions of the homogeneous and particular solutions to a linear 1st order Ordinary...

What are the contributions of the homogeneous and particular solutions to a linear 1st order Ordinary Differential Equation?

($4.2 Reduction of Order): (a) Let y1(x) = x be a solution of the homogeneous ODE...

($4.2 Reduction of Order): (a) Let y1(x) = x be a solution of the homogeneous ODE xy′′ −(x+2)y′ + ((x+2)/x)y = 0. Use the reduction of order to find a second solution y2(x), and write the general solution.

In this problem, you will solve the following first order linear ODE: y' + (1/x)y =...

In this problem, you will solve the following first order linear ODE: y' + (1/x)y = (2/x2 )+ 1 with y(1) = 1. a) Solve the complimentary equation b) Use the solution to the complimentary equation to find the general solution c) Use the initial conditions to find the specific solution

Find the characteristic equation of A, the eigenvalues of A, and a basis for the eigenspace...

Find the characteristic equation of A, the eigenvalues of A, and a basis for the eigenspace corresponding to each eigenvalue. A = −2 1 6 0 1 1 0 0 9 I found the eigenvalues to be (-2, 1,9). How do I find the basis for the eigenspace corresponding to each eigenvalue? (c) a basis for the eigenspace corresponding to each eigenvalue

Write down a homogeneous second-order linear differential equation with constant coefficients whose solutions are: a. e^-xcos(x)...

Write down a homogeneous second-order linear differential equation with constant coefficients whose solutions are: a. e^-xcos(x) , e^-xsin(x) b. x , e^x

Q.3 (Applications of Linear Second Order ODE): Consider the ‘equation of motion’ given by ODE d2x...

Q.3 (Applications of Linear Second Order ODE): Consider the ‘equation of motion’ given by ODE d2x + ω2x = F0 cos(γt) dt2 where F0 and ω ̸= γ are constants. Without worrying about those constants, answer the questions (a)–(b). (a) Show that the general solution of the given ODE is [2 pts] x(t) := xc + xp = c1 cos(ωt) + c2 sin(ωt) + (F0 / ω2 − γ2) cos(γt). (b) Find the values of c1 and c2 if the...

Find a basis for the solution space of the homogeneous linear system: w - 3x -...

Find a basis for the solution space of the homogeneous linear system: w - 3x - 9y - 5z = 0 2w + x - 4y + 11z = 0 w + 3x + 3y + 13z = 0

5.1 Application of Linear Second Order ODE): Consider the ‘spring-mass system’ represented by an ODE x′′...

5.1 Application of Linear Second Order ODE): Consider the ‘spring-mass system’ represented by an ODE x′′ (t) + 16x(t) = 5 sin 4t with ICs: x(0) = 2, x′ (0) = 1. Answer the questions (a)–(c): (a) Is there damping in the system? Why or why not? (b) Is there resonance in the system? Why or why not? (c) Solve the ODE.