Find continuous solution to following initial value problem: y"+y= pi e^(pi-t) if t > pi where...

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′−e−t+5)/y=−5,   y(0)=−4 Discuss the behavior of the solution y(t)y(t)...

Find the solution to the initial value problem (y′−e−t+5)/y=−5,   y(0)=−4 Discuss the behavior of the solution y(t)y(t) as tt becomes large. Does limt→∞y(t)limt→∞y(t) exist? If the limit exists, enter its value. If the limit does not exist, enter DNE.

Find the solution to the initial value problem (y′−e−t+5)/y=−5,   y(0)=−4 Discuss the behavior of the solution y(t)y(t)...

Find the solution to the initial value problem (y′−e−t+5)/y=−5,   y(0)=−4 Discuss the behavior of the solution y(t)y(t) as tt becomes large. Does limt→∞y(t)limt→∞y(t) exist? If the limit exists, enter its value. If the limit does not exist, enter DNE.

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!

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

Let y = y ( t ) be the solution to the initial value problem    t d y d t + 2 y = sin ⁡ t , y ( π ) = 0 Find the value of

Consider the initial value problem 2y′′+11y′+5y=aδ(t−1), y(0)=y′(0)=0 , where δ denotes the impulse function. Suppose that...

Consider the initial value problem 2y′′+11y′+5y=aδ(t−1), y(0)=y′(0)=0 , where δ denotes the impulse function. Suppose that the solution of this initial value problem satisfies y(3)=(e^9−1)/e^10. Find the value of a.

For 2y' = -tan(t)(y^2-1) find general solution (solve for y(t)) and solve initial value problem y(0)...

For 2y' = -tan(t)(y^2-1) find general solution (solve for y(t)) and solve initial value problem y(0) = -1/3

Find y(t) solution of the initial value problem 3ty^2y'-6y^3-4t^2=0, y(1)=1, t>0

Find y(t) solution of the initial value problem 3ty^2y'-6y^3-4t^2=0, y(1)=1, t>0

Find the Laplace transform Y(s)=L{y} of the solution of the given initial value problem. y′′+9y={t, 0≤t<1...

Find the Laplace transform Y(s)=L{y} of the solution of the given initial value problem. y′′+9y={t, 0≤t<1 1, 1≤t<∞, y(0)=3, y′(0)=4 Enclose numerators and denominators in parentheses. For example, (a−b)/(1+n). Y(s)=

Find the solution of the initial value problem y′′+16y′+63y=0, y(0)=7 and y′(0)=−59. y(t)=

Find the solution of the initial value problem y′′+16y′+63y=0, y(0)=7 and y′(0)=−59. y(t)=