Solve the Constant Coefficient Linear ODE: y''''+32y''+256y=0 y(0) = 2, y'(0) = -14, y''(0) = -48,...

A Non-Constant Coefficient ODE: Solve the non-constant coefficient ordinary differential equation given below: ?2?2???2−34?=0, subject to...

A Non-Constant Coefficient ODE: Solve the non-constant coefficient ordinary differential equation given below: ?2?2???2−34?=0, subject to the boundary conditions (not initial conditions) ?(0)=0,?(1)=1. After solving, answer the following questions: i) Is x = 0 in the ODE a) an anomalous singular point, b) an irregular singular point, c) a regulous singularious point. d) a regular singular point? ii) If the coefficient “x2” were replaced with “x3/2” which solution series below would you use? a) ?=Σ????∞?=0, b) ?=Σ??+???+?∞?=0, s a constant,...

Solve the IVP with Cauchy-Euler ODE: x^2 y''+3xy'+4y=0; y(1)=0, y’(1)=−2

Solve the IVP with Cauchy-Euler ODE: x^2 y''+3xy'+4y=0; y(1)=0, y’(1)=−2

Solve the ODE y"+3y'+2y=(e^-t)(sin2t) when y'(0)=y(0)=0

Solve the ODE y"+3y'+2y=(e^-t)(sin2t) when y'(0)=y(0)=0

2xy/x2+1−2x+(ln(x2+1)−2)y′=0 ODE method of exactness y(5)+12y(4)+104y(3)+408y′′+1156y′=0 constant coefficient y′′−4y′−12y=xe4x Underdetermined Coeffecient

2xy/x2+1−2x+(ln(x2+1)−2)y′=0 ODE method of exactness y(5)+12y(4)+104y(3)+408y′′+1156y′=0 constant coefficient y′′−4y′−12y=xe4x Underdetermined Coeffecient

Solve the IVP with Cauchy-Euler ODE: x^2 y''+ xy'−16y = 0; y(1) = 4, y'(1) =...

Solve the IVP with Cauchy-Euler ODE: x^2 y''+ xy'−16y = 0; y(1) = 4, y'(1) = 0

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

Suppose y(t) is governed by ODE t3y'''(t) + 6t2y''(t) + 4ty'(t) = 0. Solve this ODE...

Suppose y(t) is governed by ODE t3y'''(t) + 6t2y''(t) + 4ty'(t) = 0. Solve this ODE by performing the following procedure: 1) Let x = ln(t) and set y(t) = φ(x) = φ(ln(t)), 2) Use chain rule of differentiation to calculate derivatives y in terms derivatives of φ, 3) by appropriate substitution, construct an ODE governing φ(x) and solve it, 4) use this φ(x) to get back y(t).

Solve the ODE: ?′′+4?=?(?)−sin(?−?/2)?(?−?/2);?(0)=0,?′(0)=0

Solve the ODE: ?′′+4?=?(?)−sin(?−?/2)?(?−?/2);?(0)=0,?′(0)=0

Consider ODE y''' - 4y" + 13y' = 2te^(2t) sin3t 1.) Solve corresponding homogeneous ODE 2.)...

Consider ODE y''' - 4y" + 13y' = 2te^(2t) sin3t 1.) Solve corresponding homogeneous ODE 2.) Determine the form of the particular solution of the non-homogeneous ODE. Do not solve for the unknown coefficients.

Identify the type of ODE below (ex. Separable, Linear, Exact, etc...) and then solve the initial...

Identify the type of ODE below (ex. Separable, Linear, Exact, etc...) and then solve the initial value problem using the appropriate technique (give an explicit final answer in the form "y=...") (x2+1)(dy/dx) + 8xy = -5x, y(0) = 10