y''+4y=sint + u_pi(t)sin(t-pi) y(0)=1 y'(0)=0 find the solution

Find the general solution of the equation: y" + 4y = t^2 + 3e^t salisfying y(0)...

Find the general solution of the equation: y" + 4y = t^2 + 3e^t salisfying y(0) = 1 and y'(0) = 0

Find the function y1(t) which is the solution of 4y″+32y′+64y=0 with initial conditions y1(0)=1,y′1(0)=0. y1(t)=? Find...

Find the function y1(t) which is the solution of 4y″+32y′+64y=0 with initial conditions y1(0)=1,y′1(0)=0. y1(t)=? Find the function y2(t) which is the solution of 4y″+32y′+64y=0 with initial conditions y2(0)=0, y′2(0)=1. y2(t)= ? Find the Wronskian of these two solutions you have found: W(t)=W(y1,y2). W(t)=?

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

Find continuous solution to following initial value problem: y"+y= pi e^(pi-t) if t > pi where y(0)=0 and y'(0)=1

Find the length of the curve 1) x=2sin t+2t, y=2cos t, 0≤t≤pi 2) x=6 cos t,...

Find the length of the curve 1) x=2sin t+2t, y=2cos t, 0≤t≤pi 2) x=6 cos t, y=6 sin t, 0≤t≤pi 3) x=7sin t- 7t cos t, y=7cos t+ 7 t sin t, 0≤t≤pi/4

y′′ + 4y′ + 5y = e−2x sin x (c) Find the particular solution yp(t) using...

y′′ + 4y′ + 5y = e−2x sin x (c) Find the particular solution yp(t) using the Variation of Parameters method

Find the green's function then find the solution y"+4y=x y(0)=0, y'(1)=0

Find the green's function then find the solution y"+4y=x y(0)=0, y'(1)=0

26. Find the solution of the differential equation. y'' +4y' +4y =0 ; y(-1)=2 and y'(-1)=-1

26. Find the solution of the differential equation. y'' +4y' +4y =0 ; y(-1)=2 and y'(-1)=-1

Find the solution of the initial value problem y′′+4y=t^2+4^(et), y(0)=0, y′(0)=3.

Find the solution of the initial value problem y′′+4y=t^2+4^(et), y(0)=0, y′(0)=3.

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!

y''(t)= -y(t) + s(t) y(0) = y'(0) = 0 solution: y(t) = sin(t) Explain the physical...

y''(t)= -y(t) + s(t) y(0) = y'(0) = 0 solution: y(t) = sin(t) Explain the physical meaning of the DE above and its solution in terms of the mass-spring system.