MATH 215/255 Fall 2014 Assignment 7 due 11/12 §6.3, §6.4, §3.1, §3.3 Solutions to selected exercises can be found in [Lebl], starting from page 303. • 6.3.3: Find the solution to mx00 + cx0 + kx = f (t), x(0) = 0, x0 (0) = 0 for an arbitrary function f (t), where m > 0, c > 0, k > 0, and c2 − 4km > 0 (system is overdamped). Write the solution as a definite integral. • 6.3.4: Find the solution to mx00 + cx0 + kx = f (t), x(0) = 0, x0 (0) = 0 for an arbitrary function f (t), where m > 0, c > 0, k > 0, and c2 − 4km < 0 (system is underdamped). Write the solution as a definite integral. • 6.3.104: Solve x000 + x0 = f (t), x(0) = 0, x0 (0) = 0, x00 (0) = 0 using convolution. Write the solution as a definite integral. • 6.4.1: Solve (find the impulse response) x00 + x0 + x = δ(t), x(0) = 0, x0 (0) = 0. • 6.4.6: Compute L−1 { s 2 +s+1 s2 }. • 6.4.103: Suppose that L(x) = δ(t), x(0) = 0, x0 (0) = 0, has the solution x(t) = cos(t) for t > 0. Find (in closed form) the solution to L(x) = sin(t), x(0) = 0, x0 (0) = 0 for t > 0. • 3.1.2: Find the general solution of x01 = x2 − x1 + t, x02 = x2 . • 3.1.4: Write ay 00 + by 0 + cy = f (x) as a first order system of ODEs. • 3.1.102: Solve y 0 = 2x, x0 = x + y, x(0) = 1, y(0) = 3. • 3.3.1: Write the system x01 = 2x1 − 3tx2 + sin t, x02 = et x1 + 3x2 + cos t in the vector form ~x0 = P (t)~x + f~(t), where P (t) is a 2 × 2 matrix. • 3.3.2: Consider linear system 0 ~x = 1 3 3 1 ~x. a) Verify that the system has the following two solutions 1 1 ~x(t) = e−2t , ~x(t) = e4t . −1 1 b) Show that they are linearly independent and write down the general solution. c) Write down the general solution in the form x1 (t) =?, x2 (t) = ? (i.e. write down a formula for each element of the solution). • 3.3.104: a) Write x01 = 2tx2 , x02 = 2tx2 in matrix notation. b) Solve and write the solution in matrix notation.