a. Find the most general real-valued solution to the linear system of differential equations a x₁(t) T2(t) = C1 6(sqrt(-1))*e^((-4+6(s e^((-4+6(sqrt(-1)))t) b. In the phase plane, this system is best described as a source / unstable node sink / stable node saddle center point / ellipses spiral source spiral sink none of these 1 + c₂ [1 -36 -6(sqrt(-1))*e^((-4-6(: 1e^((-4-6(sqrt(-1)))t)

a. Find the most general real-valued solution to the linear system of differential equations a x₁(t) T2(t) = C1 6(sqrt(-1))e^((-4+6(s e^((-4+6(sqrt(-1)))t) b. In the phase plane, this system is best described as a source / unstable node sink / stable node saddle center point / ellipses spiral source spiral sink none of these 1 + c₂ [1 -36 -6(sqrt(-1))e^((-4-6(: 1e^((-4-6(sqrt(-1)))t)

Calculus For The Life Sciences

2nd Edition

ISBN:9780321964038

Author:GREENWELL, Raymond N., RITCHEY, Nathan P., Lial, Margaret L.

Publisher:GREENWELL, Raymond N., RITCHEY, Nathan P., Lial, Margaret L.

Chapter11: Differential Equations

Section11.CR: Chapter 11 Review

Problem 12CR

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Question

100%

a. Find the most general real-valued solution to the linear system of differential equations a
x₁(t)
T2(t)
= C1
6(sqrt(-1))*e^((-4+6(s
e^((-4+6(sqrt(-1)))t)
b. In the phase plane, this system is best described as a
source / unstable node
sink / stable node
saddle
center point / ellipses
spiral source
spiral sink
none of these
1
+ c₂
[1
-36
-6(sqrt(-1))*e^((-4-6(:
1e^((-4-6(sqrt(-1)))t)

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