Consider the differential equation y'-2x = x2y'+2xy. Use the separation of variables method to find a...

Consider the differential equation y′′+ 9y′= 0.( a) Let u=y′=dy/dt. Rewrite the differential equation as a...

Consider the differential equation y′′+ 9y′= 0.( a) Let u=y′=dy/dt. Rewrite the differential equation as a first-order differential equation in terms of the variables u. Solve the first-order differential equation for u (using either separation of variables or an integrating factor) and integrate u to find y. (b) Write out the auxiliary equation for the differential equation and use the methods of Section 4.2/4.3 to find the general solution. (c) Find the solution to the initial value problem y′′+ 9y′=...

1) Solve the given differential equation by separation of variables. exy dy/dx = e−y + e−6x...

1) Solve the given differential equation by separation of variables. exy dy/dx = e−y + e−6x − y 2) Solve the given differential equation by separation of variables. y ln(x) dx/dy = (y+1/x)^2 3) Find an explicit solution of the given initial-value problem. dx/dt = 7(x2 + 1),  x( π/4)= 1

Consider the differential equation: y'' = y' + y a) derive the characteristic polynomial for the...

Consider the differential equation: y'' = y' + y a) derive the characteristic polynomial for the differential equation b) write the general form of the solution to the differential equation c) using the general solution, solve the initial value problem: y(0) = 0, y'(0) = 1 d) Using only the information provided in the description of the initial value problem, make an educated guess as to what the value of y''(0) is and explain how you made your guess

Consider the differential equation x2y''+xy'-y=0, x>0. a. Verify that y(x)=x is a solution. b. Find a...

Consider the differential equation x2y''+xy'-y=0, x>0. a. Verify that y(x)=x is a solution. b. Find a second linearly independent solution using the method of reduction of order. [Please use y2(x) = v(x)y1(x)]

method of separation of variables.(x2y+ 2xy+ 5y)dy= (y2+ 7)dx2 integration factor. xdy/dx−2y=x4sinx3. variation of parameters: y′−y=xex/x+1

method of separation of variables.(x2y+ 2xy+ 5y)dy= (y2+ 7)dx2 integration factor. xdy/dx−2y=x4sinx3. variation of parameters: y′−y=xex/x+1

Use Euler's method to approximate y(1.2), where y(x) is the solution of the initial-value problem x2y''...

Use Euler's method to approximate y(1.2), where y(x) is the solution of the initial-value problem x2y'' − 2xy' + 2y = 0,  y(1) = 9,  y'(1) = 9, where x > 0. Use h = 0.1. Find the analytic solution of the problem, and compare the actual value of y(1.2) with y2. (Round your answers to four decimal places.) y(1.2) ≈     (Euler approximation) y(1.2) =     (exact value)

Use the method of undetirmined coefficients to find the general solution of the differential equation y''+4y'-5y...

Use the method of undetirmined coefficients to find the general solution of the differential equation y''+4y'-5y = 5cos(2x)

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

Partial Differential Equation Problem: Find the general solution u(x, y) of: uxy = x2y. Show your...

Partial Differential Equation Problem: Find the general solution u(x, y) of: uxy = x2y. Show your work clearly.

Consider the intitial value problem x2y''+2xy'-12y=0, y(1)=4, y'(1)=5 How many solutions does this problem have on...

Consider the intitial value problem x2y''+2xy'-12y=0, y(1)=4, y'(1)=5 How many solutions does this problem have on the interval I=(0, positive infinity). Explain your answer