find a homogeneous de with constant-coefficient whose general solution is y=C1e^x+C2e^2xcos5x+C3sin5x

find a homogeneous linear differential equation with constant coefficients whose general solution is given: c1e^(x)sin4x+c2e^(x)cos4x

find a homogeneous linear differential equation with constant coefficients whose general solution is given: c1e^(x)sin4x+c2e^(x)cos4x

The general solution of the equation y′′+6y′+13y=0 is y=c1e-3xcos(2x)+c2e−3xsin(2x)   Find values of c1 and c2 so...

The general solution of the equation y′′+6y′+13y=0 is y=c1e-3xcos(2x)+c2e−3xsin(2x)   Find values of c1 and c2 so that y(0)=1 and y′(0)=−9. c1=? c2=? Plug these values into the general solution to obtain the unique solution. y=?

Suppose x=c1e−t+c2e^5t. Verify that x=c1e^−t+c2e^5t is a solution to x′′−4x′−5x=0 by substituting it into the differential...

Suppose x=c1e−t+c2e^5t. Verify that x=c1e^−t+c2e^5t is a solution to x′′−4x′−5x=0 by substituting it into the differential equation. (Enter the terms in the order given. Enter c1 as c1 and c2 as c2.)

Solve (find the general solution) of the following non-homogeneous DE using the annihilator method. y′′ +...

Solve (find the general solution) of the following non-homogeneous DE using the annihilator method. y′′ + 8y′ +15y = 2sin(2x)

solve non-homogeneous de y" - y' - 2y = 6x + 5 -2e^x by finding- the...

solve non-homogeneous de y" - y' - 2y = 6x + 5 -2e^x by finding- the solution yh(x) to the equivalent homogeneous de the particular solution yp(x) using undetermined coefficients the general solution y(x) = yh(x) + yp(x) of the de

Find the general solution of the non-homogeneous differential equation y "+ y = csc² x.

Find the general solution of the non-homogeneous differential equation y "+ y = csc² x.

Find the general solution of the equation • y″+ y = cosx i) The homogeneous solution...

Find the general solution of the equation • y″+ y = cosx i) The homogeneous solution yh(x) and yp(x) ii) The general solution using the initial conditions y(0)=1 and y'(0)=1

(Higher Order DE) Find the general solution of y'''− 2y''− y'+ 2y = e^x?

(Higher Order DE) Find the general solution of y'''− 2y''− y'+ 2y = e^x?

A) Find the general solution of the de (d2 / d x2 ) y(x) + (4)...

A) Find the general solution of the de (d2 / d x2 ) y(x) + (4) (d/dx ) y(x) + 4y(x) = 0 B) Obtain the solution of the IVP with IC's y(0) = 1 and dy(0) / dx = 2

For problems 3-6, note that if y(t) is a solution of the homogeneous problem, then y(t−t0)...

For problems 3-6, note that if y(t) is a solution of the homogeneous problem, then y(t−t0) is a solution as well, where t0 is a fixed constant. So, for example, the general solution of a problem with complex roots can be expressed as y(x) = c1e µ(t−t0) cos(ω(t − t0)) + c1e µ(t−t0) sin(ω(t − t0)) When initial conditions are given at time t = t0 and not t = 0, expressing the general solution in terms of t −...