Ordinary differential equations please show work for both parts A and B! A) Solve the following...

Series Solutions of Ordinary Differential Equations For the following problems solve the given differential equation by...

Series Solutions of Ordinary Differential Equations For the following problems solve the given differential equation by means of a power series about the given point x0. Find the recurrence relation; also find the first four terms in each of two linearly independed sollutions (unless the series terminates sooner). If possible, find the general term in each solution. y"+k2x2y=0, x0=0, k-constant

Use the method for solving equations of the form dy/dx=G(ax+by) to solve the following differential equation....

Use the method for solving equations of the form dy/dx=G(ax+by) to solve the following differential equation. dy/dx=2sin(4x-2y) ignore lost solutions and give implicit solution in the form F(x,y)=c

#3 Determine the form of a particular solution of equations (do not solve equation): a) y’’...

#3 Determine the form of a particular solution of equations (do not solve equation): a) y’’ – 2y’ + y = e^x b) y’’ + y = 4x + 10sinx

Use the method for solving Bernoulli equations to solve the following differential equation. (dy/dx)+4y=( (e^(x))*(y^(-2)) )...

Use the method for solving Bernoulli equations to solve the following differential equation. (dy/dx)+4y=( (e^(x))*(y^(-2)) ) Ignoring lost solutions, if any, the general solution y= ______(answer)__________ (Type an expression using x as the variable) THIS PROBLEM IS A DIFFERENTIAL EQUATIONS PROBLEM. Only people proficient in differential equations should attempt to solve. Please write clearly and legibly. I must be able to CLEARLY read your solution and final answer. CIRCLE YOUR FINAL ANSWER.

(a) Use an Integrating Factor to solve the ordinary differential equation, r dy/dr + 2y =...

(a) Use an Integrating Factor to solve the ordinary differential equation, r dy/dr + 2y = 4 ln r, subject to the initial condition, y(1) = 0. [5 marks] (b) Solve the ordinary differential equation which is given in part (a) by first making the substitution, r = e x , to transform it into a differential equation for y in terms of x. [5 marks]

1- Solve Ordinary Differential Equations A) (xˆ2 + 1) y '+ 4xy = x B) y...

1- Solve Ordinary Differential Equations A) (xˆ2 + 1) y '+ 4xy = x B) y '+ ((2x + 1) / x) y = exp (-2x) C) y '+ y = sen (x) D) y'-2xy = x

The equation y = 2e6x - 5 is a particular solution to which of the following...

The equation y = 2e6x - 5 is a particular solution to which of the following differential equations? A. y' - 6y - 30 = 0 B. 2y' - 12y + 5 = 0 C. y" - 5y' - 6y = 0 D. y" - 2y' + y + 5 = 0

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.

y'''+2y''-4y'+8y= -5cos(x)-10sin(x)+16e2x A.Solve the underlining homogenous equation, solve the characteristic equations, write fundamental solutions B. Find...

y'''+2y''-4y'+8y= -5cos(x)-10sin(x)+16e2x A.Solve the underlining homogenous equation, solve the characteristic equations, write fundamental solutions B. Find the particular solution? (use undetermined coefficients method to find particular solution)

(a) Separate the following partial differential equation into two ordinary differential equations: e 5t t 6...

(a) Separate the following partial differential equation into two ordinary differential equations: e 5t t 6 Uxx + 7t 2 Uxt − 6t 2 Ut = 0. (b) Given the boundary values Ux (0,t) = 0 and U(2π,t) = 0, for all t, write an eigenvalue problem in terms of X(x) that the equation in (a) must satisfy. That is, state (ONLY) the resulting eigenvalue problem that you would need to solve next. You do not need to actually solve...