Let n = -1.75xn-1 +18 be a linear DDS. a) Suppose the initial value is = 20. Find the explicit solution. o In b) Calculate the equilibrium value for this DDS. Round to 2 decimal places as needed. Xe c) Determine the stability of the equilibrium. Choose the correct answer. The equilibrium of this system is [Select an answer because O the slope is positive. the slope in absolute value is greater than 1. the slope in absolute value is less than 1. the slope is negative.

Advanced Engineering Mathematics
10th Edition
ISBN:9780470458365
Author:Erwin Kreyszig
Publisher:Erwin Kreyszig
Chapter2: Second-order Linear Odes
Section: Chapter Questions
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a) Suppose the initial value is x(0) = 20. Find the explicit solution.

b) Calculate the equilibrium value for this DDS. Round to 2 decimal places as needed.

Let In =
a) Suppose the initial value is o
Xn
-1.75xn-1 +18 be a linear DDS.
xe
= 20. Find the explicit solution.
b) Calculate the equilibrium value for this DDS. Round to 2 decimal places as needed.
c) Determine the stability of the equilibrium. Choose the correct answer.
The equilibrium of this system is Select an answer because
O the slope is positive.
O the slope in absolute value is greater than 1.
the slope in absolute value is less than 1.
O the slope is negative.
Transcribed Image Text:Let In = a) Suppose the initial value is o Xn -1.75xn-1 +18 be a linear DDS. xe = 20. Find the explicit solution. b) Calculate the equilibrium value for this DDS. Round to 2 decimal places as needed. c) Determine the stability of the equilibrium. Choose the correct answer. The equilibrium of this system is Select an answer because O the slope is positive. O the slope in absolute value is greater than 1. the slope in absolute value is less than 1. O the slope is negative.
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