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
Solve the IVP [] = [-3 1] [2+[6] [70] - [%]
2. Consider the IVP /" -+13y-6(t-2), (o)-o,)-1 a. Solve the IVP. b. Find the exact value for the following.
Solve the IVP [:] =: -:] [:] [0]=[2]
1.a.
b.
c.
Solve the IVP 2 [:] = [3 =:] [:] []=[3] ņ Find e At where 2 5 A = -2 -4 Solve the IVP (21-1 -3) M (O)-() x(0) I g(0)
Question 2. (15 pts) Solve the IVP. dy/dt t/(y+ty), y(1) 2
Question 2. (15 pts) Solve the IVP. dy/dt t/(y+ty), y(1) 2
The following IVP will be used for Question 1 and Question 2 on this quiz. Solve the initial value problem using the method of Laplace Transforms. y' - y' = 6x y(0) = 2,y'(0) = -1 The solution will be accomplished through answering the two questions below. In using the Laplace Transform to solve the above IVP, solving for Y(s) gives Y(8) = Y(s) = + 8+3 $-2 s-2 Y(s) – + 5 $+2 8-3 3 5 Y(s) = +...
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
Solve the IVP. 1 [- [ 3 ] [:]+[66*) ()-14
Solve the IVP: