For the below ordinary differential equation with initial conditions, state the order and determine if the...

For the below ordinary differential equation with initial conditions, state the order and determine if the...

For the below ordinary differential equation with initial conditions, state the order and determine if the equation is linear or nonlinear. Then find the solution of the ordinary differential equation, and apply the initial conditions. Verify your solution. y''-3y'+2y=0; y(0)=1,y' (0)=2.

For the below ordinary differential equation, state the order and determine if the equation is linear...

For the below ordinary differential equation, state the order and determine if the equation is linear or nonlinear. Then find the general solution of the ordinary differential equation. Verify your solution. x dy/dx+y=xsin(x) Please no handwriting unless I can read it.

For each equation below, do the following: - Classify the differential equation by stating its order...

For each equation below, do the following: - Classify the differential equation by stating its order and whether it is linear or non-linear. For linear equations, also state whether they are homogeneous or non-homogeneous. - Find the general solution to the equation. Give explicit solutions only. (So all solutions should be solved for the dependent variable y.) a. y′ = xy2 + xy. b. y′ + y = cos x c. y′′′ = 2ex + 3 cos x d. dy/dx...

Solve the 1st-order linear differential equation using an integrating fac- tor. For problem solve the initial...

Solve the 1st-order linear differential equation using an integrating fac- tor. For problem solve the initial value problem. For each problem, specify the solution interval. dy/dx−2xy=x, y(0) = 1

Determine the order, dependent and independent variables of the given differential equation and state whether the...

Determine the order, dependent and independent variables of the given differential equation and state whether the equation is linear or nonlinear. (a) xdy + exy = 2x + 1dx (b) yy′′ + 4y′ + y = 3t (c) (1+t2)x′′ +tx′ −x2 = 0

find the solution of the first order differential equation (e^x+y + ye^y)dx +(xe^y - 1)dy =0...

find the solution of the first order differential equation (e^x+y + ye^y)dx +(xe^y - 1)dy =0 with initial value y(0)= -1

Given the second-order differential equation y''(x) − xy'(x) + x^2 y(x) = 0 with initial conditions...

Given the second-order differential equation y''(x) − xy'(x) + x^2 y(x) = 0 with initial conditions y(0) = 0, y'(0) = 1. (a) Write this equation as a system of 2 first order differential equations. (b) Approximate its solution by using the forward Euler method.

1- Find the solution of the following equations. For each equation, 2- determine the type of...

1- Find the solution of the following equations. For each equation, 2- determine the type of the category that the equation belongs to. 1. y/x cos y/x dx − ( x/y sin y/x + cos y/x ) dy = 0 2. x(1 − y^2 )dx + y(8 − x^2 )dy = 0 3. (x^2 − x + y^2 )dx − (e^y − 2xy)dy = 0 4. 2x sin 3ydx + 3x^2 cos 3ydy = 0 5. (x ln x −...

Find a particular solution to each of the following differential equations with the given initial condition:...

Find a particular solution to each of the following differential equations with the given initial condition: A) dy/dx=ysinx/1+y^2, y(0)=1 B)dy/dx=xy ln x, y(1)=3 C)xy(1+x^2) dy/dx=(1+y^2), y(1)=0

1. Sketch the direction field for the following differential equation dy dx = y − x....

1. Sketch the direction field for the following differential equation dy dx = y − x. You may use maple and attach your graph. Also sketch the solution curves with initial conditions y(0) = −1 and y(0) = 1.