Let y = y ( t ) be the solution to the initial value problem   ...

Find the solution of the given initial value problem: y " + y = f(t); y(0)...

Find the solution of the given initial value problem: y " + y = f(t); y(0) = 6, y' (0) = 3 where f(t) = 1, 0 ≤ t < π 2 0, π 2 ≤ t < ∞

Find the solution to the initial value problem y’ = - sin x, y (π) =...

Find the solution to the initial value problem y’ = - sin x, y (π) = 2.

Solve the initial value problem 2(sin(t)dydt+cos(t)y)=cos(t)sin^3(t) for 0<t<π0<t<π and y(π/2)=13.y(π/2)=13. Put the problem in standard form....

Solve the initial value problem 2(sin(t)dydt+cos(t)y)=cos(t)sin^3(t) for 0<t<π0<t<π and y(π/2)=13.y(π/2)=13. Put the problem in standard form. Then find the integrating factor, ρ(t)= and finally find y(t)=

Find the solution for the initial value problem. (sint)y′ +(cost)y=t, y(π/2)=2

Find the solution for the initial value problem. (sint)y′ +(cost)y=t, y(π/2)=2

Let y(t) be the solution of the initial-value problem y'= sin(y)e^(y2+1); y(0) = 1 Calculate limt->INF...

Let y(t) be the solution of the initial-value problem y'= sin(y)e^(y2+1); y(0) = 1 Calculate limt->INF y(t). (Hint: do not attempt to solve the ODE). THE ANSWER IS PI. PLEASE EXPLAIN CAUSE IM CONFUSED!

Choose C so that y(t) = −1/(t + C) is a solution to the initial value...

Choose C so that y(t) = −1/(t + C) is a solution to the initial value problem y' = y2 y(2) = 3. Verify that the given formula is a solution to the initial value problem. x′ = −y, y′ = x, x(0) = 1, y(0) = 0: x(t) = cost, y(t) = sin t

Find the Laplace transform Y(s)=L{y} of the solution of the given initial value problem. A. y′′+16y...

Find the Laplace transform Y(s)=L{y} of the solution of the given initial value problem. A. y′′+16y = {1, 0 ≤ t < π = {0, π ≤ t < ∞, y(0)=3, y′(0)=5 B. y′′ + 4y = { t, 0 ≤ t < 1 = {1, 1 ≤ t < ∞, y(0)=3, y′(0)=3

Consider the boundary value problem y''(t) + y(t) = f(t) , y(0) = 0 and  y(π/2) =...

Consider the boundary value problem y''(t) + y(t) = f(t) , y(0) = 0 and  y(π/2) = 0. Find the solution to the boundary value problem

Let y(x) be the solution to the following initial value problem. x6 y′  +  7x5 y  ...

Let y(x) be the solution to the following initial value problem. x6 y′  +  7x5 y  =  In(x)/x, x > 0, y(1) = 5. Find y(e).

6.                  Consider the initial value problem                   &

6.                  Consider the initial value problem                                            y'’ + 2y’ + 2y = δ(t − π);           y(0) = 0, y’(0) = 1. a.    Find the solution to the initial value problem. b.    Sketch a plot of the solution for t ∈ [0,3π]. c.    Describe the behavior of the solution. How is this system damped?