solve the following ED by reducing it of order: y´´ = 16 + (y)´^ 2

solve the following ED by reducing it of order:
y´´ = 16 + (y)´^ 2

Reduce the following equation to first order and solve Y” + (1+1/Y) (Y’)2 = 0 Please...

Reduce the following equation to first order and solve Y” + (1+1/Y) (Y’)2 = 0 Please show all steps and give solution.

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

Solve the following differential equations through order reduction. (a) xy′y′′−3ln(x)((y′)2−1)=0. (b) y′′−2ln(1−x)y′=x.

Solve the following differential equations through order reduction. (a) xy′y′′−3ln(x)((y′)2−1)=0. (b) y′′−2ln(1−x)y′=x.

solve the linear order y' - 2y = cos(3x). solve for y.

solve the linear order y' - 2y = cos(3x). solve for y.

Find the solution of the ED (2y+1)y" = (y')^2

Find the solution of the ED (2y+1)y" = (y')^2

Solve the following 2nd Order differential equation and find y(x): y'' + 2y' +y = x...

Solve the following 2nd Order differential equation and find y(x): y'' + 2y' +y = x + e-x y(0) = 0, y'(0) = 0.

Solve the following differential equations y''-4y'+4y=(x+1)e2x (Use Wronskian) y''+(y')2+1=0 (non linear second order equation)

Solve the following differential equations y''-4y'+4y=(x+1)e2x (Use Wronskian) y''+(y')2+1=0 (non linear second order equation)

Solve the first-order linear differential equation: y ′ + sin ⁡ ( x ) y =...

Solve the first-order linear differential equation: y ′ + sin ⁡ ( x ) y = sin ⁡ ( x ) , y ( 0 ) = 2.

Solve the following second-order equation applying variation of parameters method: y'' + 4y' + 4y =...

Solve the following second-order equation applying variation of parameters method: y'' + 4y' + 4y = t^(-2) * e^(-2t) t > 0 Thank you!

Solve the first order differential equation. y' - y= sin(x)

Solve the first order differential equation. y' - y= sin(x)