1
answer
0
watching
51
views
13 Nov 2019
4. Use Laplace transforms to solve the following differential equation 5. Consider the following list of differential equations. Do not attempt to solve any of them. Rather, identify which solution technique would be appropriate to either approximate the solution or solve the equation exactly. The solution techniques are: Euler's method (before or after rewriting the equation as a syste), phase line analysis, phase plane analysis (before or after rewriting as a system), reverse product rule, separation of variables, Laplace transform (a) x' + z = sin(t): x(0) = 1 (b) r" +x = sin(t); r(0) = 1: z'(0) =-1 (e) z, = r(1-z); x(0) = 2 Briefly defend your answers
4. Use Laplace transforms to solve the following differential equation 5. Consider the following list of differential equations. Do not attempt to solve any of them. Rather, identify which solution technique would be appropriate to either approximate the solution or solve the equation exactly. The solution techniques are: Euler's method (before or after rewriting the equation as a syste), phase line analysis, phase plane analysis (before or after rewriting as a system), reverse product rule, separation of variables, Laplace transform (a) x' + z = sin(t): x(0) = 1 (b) r" +x = sin(t); r(0) = 1: z'(0) =-1 (e) z, = r(1-z); x(0) = 2 Briefly defend your answers
Jarrod RobelLv2
17 Oct 2019