4. Find a general solution of t^2x′′ − 5tx′ + 5x = 6t^3, t > 0...

5. Find a general solution of t^2x′′ − 5tx′ + 5x = 6t^3, t > 0...

5. Find a general solution of t^2x′′ − 5tx′ + 5x = 6t^3, t > 0 using the method of undetermined coefficients

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

Find a general solution using the method of variation of parameters ? ′′ − 4? ′...

Find a general solution using the method of variation of parameters ? ′′ − 4? ′ + 4? = ? ^2?/ ? ^2

y′′ + 4y′ + 5y = e−2x sin x (c) Find the particular solution yp(t) using...

y′′ + 4y′ + 5y = e−2x sin x (c) Find the particular solution yp(t) using the Variation of Parameters method

Now find the general solution of the equation using the method of variation of parameters without...

Now find the general solution of the equation using the method of variation of parameters without using the formula from the book: y''-y'=5sin⁡(2x)

For the equation 2x^4 - 5x^3 + 10 = 0, find the number of complex roots...

For the equation 2x^4 - 5x^3 + 10 = 0, find the number of complex roots and the possible number of real roots

Use variation of parameters to find the general solution to: t2 y''(t) + 3t y'(t) -...

Use variation of parameters to find the general solution to: t2 y''(t) + 3t y'(t) - 3 y(t) = 1 / t

Solve the following second order differential equations: (a) Find the general solution of y'' − 2y'...

Solve the following second order differential equations: (a) Find the general solution of y'' − 2y' = sin(3x) using the method of undetermined coefficients. (b) Find the general solution of y'' − 2y'− 3y = te^−t using the method of variation of parameters.

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

Find the general solution to the system x" = 5x + 2y, y" = 2x +...

Find the general solution to the system x" = 5x + 2y, y" = 2x + 8y. Note that the system as stated above has second derivatives. Once you write it as a first-order system, the characteristic equation will be biquadratic (quadratic in λ2), so you can solve for λ2 and then take square roots to get the eigenvalues.