Solve the IVP using laplace transformation y”+3y=(t-2)u(t-1) y(0)=-1 y’(0)=2 Solve the IVP usiag laplace transformahbn 3y (t-2) u (t-1) (0) 2 yo)-1 Solve the IVP usiag laplace transformahbn 3y (t-2) u (t-1) (0) 2 yo)-1
Use the Laplace transformation to solve the IVP. y"-6y' + 9y-24-9t, y(0)-2, y' (0)-0 1. Use the Laplace transformation to solve the IVP. y"-6y' + 9y-24-9t, y(0)-2, y' (0)-0 1.
2. Solve the linear homogeneous IVP U+ rtuz = 0, u.1,0) = sinr, -o0<< 0, t> 0.
solve the IVP Q2) Solve the IVP. Show the steps of derivation, beginning with the general solution Xy' + y = 0, y(4) = 6 dr/dt = - 211. 7(0) = lo v' = -4x/y: V(2) = 3
2. Solve the ODE/IVP: 4x²y" +8xy' +y=0; y(1)= 2, y'(1) = 0).
. Consider the IVP y'= 1 + y?, y(0) = 0 a. Solve the IVP analytically b. Using step size 0.1, approximate y(0.5) using Euler's Method c. Using step size 0.1, approximate y(0.5) using Euler's Improved Method d. Find the error between the analytic solution and both methods at each step
Solve the IVP. y' – 3y = t + 2e, y(0) = 0
Solve the IVP 61-6301(c) CO) -(0) +
Problem 6 Solve the following IVP: a) y" – 4y" +20y'=0 ; y0)=2 , y'(0)=0, y"(0) = 6 b) y" +4y=0; y(0)=2 , y'(0) = 3
2. Solve the IvP x()21 x(0) = | 1 t) = la x(t),