In Exercises 3–6, solve the initial value problem x ′( t ) = A x (t) for t ≥ 0, with x (0) = (3, 2). Classify the nature of the origin as an arc actor, repeller, or saddle point of the dynamical system described by x ′ = A x . Find the directions of greatest attraction and/or repulsion. When the origin is a saddle point, sketch typical trajectories. 3. A = [ 2 3 − 1 − 2 ]
In Exercises 3–6, solve the initial value problem x ′( t ) = A x (t) for t ≥ 0, with x (0) = (3, 2). Classify the nature of the origin as an arc actor, repeller, or saddle point of the dynamical system described by x ′ = A x . Find the directions of greatest attraction and/or repulsion. When the origin is a saddle point, sketch typical trajectories. 3. A = [ 2 3 − 1 − 2 ]
In Exercises 3–6, solve the initial value problem x′(t) = Ax(t) for t ≥ 0, with x(0) = (3, 2). Classify the nature of the origin as an arc actor, repeller, or saddle point of the dynamical system described by x′ = Ax. Find the directions of greatest attraction and/or repulsion. When the origin is a saddle point, sketch typical trajectories.
Introductory and Intermediate Algebra for College Students (5th Edition)
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