For what two values of r does the function y = e rx  satisfy the differential equation...

Determine the values of r for which the differential equation y′′′+9y′′+20y′=0 has solutions of the form...

Determine the values of r for which the differential equation y′′′+9y′′+20y′=0 has solutions of the form y=e^rt. Enter the values of r in increasing order. If there is no answer, enter DNE. r = ___ r = ___ r = ___

Check if the following functions satisfy the differential equation dy/dx = x+y. In each case, after...

Check if the following functions satisfy the differential equation dy/dx = x+y. In each case, after your work is complete say whether the function fits the equation. a. y= -x-1 b. y= e^x -x c. y=2e^x-x-1

Differential Equations problem If y1= e^-x is a solution of the differential equation y'''-y''+2y=0 . What...

Differential Equations problem If y1= e^-x is a solution of the differential equation y'''-y''+2y=0 . What is the general solution of the differential equation?

Does the function f(x,y)=x2+y2 satisfy the two dimensional Laplace's equation? Explain why/why not And then calculate...

Does the function f(x,y)=x2+y2 satisfy the two dimensional Laplace's equation? Explain why/why not And then calculate the gradient of g(x,y) at points g(x,y)=(0,1), (1,0), (0,-1) and (-1,0) and indicate by little arrows the directions in which these gradient vectors point.

If y1= e^-3x is a solution of the differential equation y "'+ y" - 4y' +...

If y1= e^-3x is a solution of the differential equation y "'+ y" - 4y' + 6y = 0. What is the general solution of the differential equation?

(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...

consider the differential equation xy'' - xy' + y = 0. The indicial equation is r(r...

consider the differential equation xy'' - xy' + y = 0. The indicial equation is r(r - 1) = 0. The recurrence relation is c_k+1(k + r + 1) + (k + r) - c_k(K + r - 1) = 0. A series solution to the indicial root r = 0 is

Solve the differential equation by variation of parameters. y'' + 3y' + 2y = 1/(4+e^x)

Solve the differential equation by variation of parameters. y'' + 3y' + 2y = 1/(4+e^x)

Find the general solution of the differential equation: y''' - 3y'' + 3y' - y =...

Find the general solution of the differential equation: y''' - 3y'' + 3y' - y = e^x - x + 16 y' being the first derivative of y(x), y'' being the second derivative, etc.

Solve the differential equation y^' − xy = e^x   y(0) = 2

Solve the differential equation y^' − xy = e^x   y(0) = 2