Consider the non-linear system a'(t) = x? – y², y'(t) = ax² + 2y – (a+ 2) where a is a parameter. (a) Let a = 1. Find all equilibrium points of the system and determine their types (saddle, spiral sink/source, nodal sink/source) if possible. (b) For every a, (1,1) is an equilibrium point of the system. Can (1,1) be a saddle point for a positive a? If yes, find the range of a such that this is a saddle point; if no, explain the reason. -6 -4 -2 4. The picture shows the computer-generated phase portrait of the non-linear system for a = 1; you may use this picture to check your answer in (а).

Consider the non-linear system a'(t) = x? – y², y'(t) = ax² + 2y – (a+ 2) where a is a parameter. (a) Let a = 1. Find all equilibrium points of the system and determine their types (saddle, spiral sink/source, nodal sink/source) if possible. (b) For every a, (1,1) is an equilibrium point of the system. Can (1,1) be a saddle point for a positive a? If yes, find the range of a such that this is a saddle point; if no, explain the reason. -6 -4 -2 4. The picture shows the computer-generated phase portrait of the non-linear system for a = 1; you may use this picture to check your answer in (а).

Name: How do you solve this? Consider the non-linear systema'(t) = 2? – y²,y
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Description: How do you solve this? Consider the non-linear systema'(t) = 2? – y²,y' (t) = ax² + 2y - (a + 2)where a is a parameter.(a) Let a = 1. Find all equilibrium points of the system and determine their types (saddle, spiral sink/source, nodal sink/source)

Advanced Engineering Mathematics

10th Edition

ISBN:9780470458365

Author:Erwin Kreyszig

Publisher:Erwin Kreyszig

Chapter2: Second-order Linear Odes

Section: Chapter Questions

Problem 1RQ

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