Use variation of parameters to find a general solution to the differential equation given that the...

Use variation of parameters to find a general solution to the differential equation given that the...

Use variation of parameters to find a general solution to the differential equation given that the functions y 1 and y 2 are linearly independent solutions to the corresponding homogeneous equation for t>0. ty"-(t+1)y'+y=30t^2 ; y1=e^t , y2=t+1 The general solution is y(t)= ?

This is a differential equations problem: use variation of parameters to find the general solution to...

This is a differential equations problem: use variation of parameters to find the general solution to the differential equation given that y_1 and y_2 are linearly independent solutions to the corresponding homogeneous equation for t>0. ty"-(t+1)y'+y=18t^3 ,y_1=e^t ,y_2=(t+1) it said the answer to this was C_1e^t + C_2(t+1) - 18t^2(3/2+1/2t) I don't understand how to get this answer at all

The indicated functions are known linearly independent solutions of the associated homogeneous differential equation on (0,...

The indicated functions are known linearly independent solutions of the associated homogeneous differential equation on (0, ∞). Find the general solution of the given nonhomogeneous equation. x2y'' + xy' + y = sec(ln(x)) y1 = cos(ln(x)), y2 = sin(ln(x))

B. a non-homogeneous differential equation, a complementary solution, and a particular solution are given. Find a...

B. a non-homogeneous differential equation, a complementary solution, and a particular solution are given. Find a solution satisfying the given initial conditions. y''-2y'-3y=6 y(0)=3 y'(0) = 11 yc= C1e-x+C2e3x yp = -2 C. a third-order homogeneous linear equation and three linearly independent solutions are given. Find a particular solution satisfying the given initial conditions y'''+2y''-y'-2y=0, y(0) =1, y'(0) = 2, y''(0) = 0 y1=ex, y2=e-x,, y3= e-2x

a) Find the general solution of the differential equation y''-2y'+y=0 b) Use the method of variation...

a) Find the general solution of the differential equation y''-2y'+y=0 b) Use the method of variation of parameters to find the general solution of the differential equation y''-2y'+y=2e^t/t^3

Use the method of variation parameters to find the general solution of the differential equation y''...

Use the method of variation parameters to find the general solution of the differential equation y'' +16y = csc 4x

3. Find the general solution if the given differential equation by using the variation of parameters...

3. Find the general solution if the given differential equation by using the variation of parameters method. y''' + y'= 2 tan x, − π /2 < x < π/2

Consider the second-order homogeneous linear equation y''−6y'+9y=0. (a) Use the substitution y=e^(rt) to attempt to find...

Consider the second-order homogeneous linear equation y''−6y'+9y=0. (a) Use the substitution y=e^(rt) to attempt to find two linearly independent solutions to the given equation. (b) Explain why your work in (a) only results in one linearly independent solution, y1(t). (c) Verify by direct substitution that y2=te^(3t) is a solution to y''−6y'+9y=0. Explain why this function is linearly independent from y1 found in (a). (d) State the general solution to the given equation

Use the method of variation of parameters to determine the general solution of the given differential...

Use the method of variation of parameters to determine the general solution of the given differential equation. y′′′−y′=3t Use C1, C2, C3, ... for the constants of integration.

Consider the differential equation L[y] = y′′ + p(t)y′ + q(t)y = f(t) + g(t), and...

Consider the differential equation L[y] = y′′ + p(t)y′ + q(t)y = f(t) + g(t), and suppose L[yf] = f(t) and L[yg] = g(t). Explain why yp = yf + yg is a solution to L[y] = f + g. Suppose y and y ̃ are both solutions to L[y] = f + g, and suppose {y1, y2} is a fundamental set of solutions to the homogeneous equation L[y] = 0. Explain why y = C1y1 + C2y2 + yf...