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QUESTION 2 Find the longest interval in which the solution for the initial value problem is...
Problem 4 ( 14 points) (a) Determine the longest interval in which the given initial value problem is certain to have a unique twice-differentiable solution. Do not attempt to find the solution. (t +3)(t - 5)/" + 3ty' + 4y = 2, y(3) = 0, y(3) = -1. (b) Find the Wrongskian of two solutions of the following equation without solving the equation. (t2 – 1)y" – (t – 1)(t + 1)(t + 2)y' + (t + 2)y = 0.
Problem 4 ( 14 points) (a) Determine the longest interval in which the given initial value problem is certain to have a unique twice-differentiable solution. Do not attempt to find the solution. (t +3)(t - 5)/" + 3ty' + 4y = 2, y(3) = 0, y(3) = -1. (b) Find the Wrongskian of two solutions of the following equation without solving the equation. (t2 – 1)y" – (t – 1)(t + 1)(t + 2)y' + (t + 2)y = 0.
4. (10 points)Determine the longest interval in which the given initial value problem is certain to have a unique solution. Explain. t(t? - 1)/" - 2 tan(t)y - 3y = 12 y(4) = 2,v/(4) = -2
Find the interval in which the solution of the initial value problem above is certain to exist. |(t - 1)y' (t - 5)y = In|t + t-1, y(10) = -3 (t 5)y'n(t 2)y — 5t, y(3) - 1 |(t - 1)y' (t - 5)y = In|t + t-1, y(10) = -3 (t 5)y'n(t 2)y — 5t, y(3) - 1
4. Determine the longest interval in which the initial value problem below is certain to have a unique twice- differentiable solution. ty"+3y 0 y(1) 1 (1) = 2 Explain your reasoning.
Determine (without solving the problem) an interval in which the solution of the given initial value problem is certain to exist. (Enter your answer using interval notation.) (t - 7)y' + (Int)y = 4, y(1) = 4
Question 4 Use the method of Laplace transform to find the solution of the initial value problem Zy" + y' + 4-2 δ(t-r/6) sint, y'(0)-0. y(0)-0, Solution: Question 4 Use the method of Laplace transform to find the solution of the initial value problem Zy" + y' + 4-2 δ(t-r/6) sint, y'(0)-0. y(0)-0, Solution:
4. Find the longest r-interval where the initial value problem: y'+ty: = tany, y(-1) = 1 has a unique solution. (10 points)
10. (10 points) Determine without solving the problem an interval in which the solution of the following initial value problem is certain to exist. (1-9)y'+(In t)y = 421 y(4) = 1
A linear system is governed by the given initial value problem. Find the transfer function H(s) for the system and the impulse response function h(t) and give a formula for the solution to the initial value problem. y" - 6y' +34y = g(t); y(O)= 0, y' (O) = 5 Find the transfer function. H(s) = Use the convolution theorem to obtain a formula for the solution to the given initial value problem, where g(t) is piecewise continuous on (0,00) and...