Consider the harvest population model N+1 = 1.5N,(1 N) - hN. e rnd the equilibrium population as a function of h. What is the largest h consis- tent with a nonnegative equilibrium? Tet N be equilibrium, N=1.5N -N* )-nN O N-1.SN# (1-N*)+nN* =0 N* [I-1 SU-N)+n] =0 Nオ=0 or N*II-1SCI-N*n]=0 (b) Find the equilibrium harvest as a function of h. P(n) - hN* I+h h (1-) 1.5 h+h? 1.5 (c) Find the harvesting effort that maximizes the harvest. POS)= 0.5(1-) -0 d) Find the equilibria for this harvesting effort. For each, determine if stable or unstable.

Consider the harvest population model N+1 = 1.5N,(1 N) - hN. e rnd the equilibrium population as a function of h. What is the largest h consis- tent with a nonnegative equilibrium? Tet N be equilibrium, N=1.5N -N* )-nN O N-1.SN# (1-N)+nN =0 N* [I-1 SU-N)+n] =0 Nオ=0 or NII-1SCI-Nn]=0 (b) Find the equilibrium harvest as a function of h. P(n) - hN* I+h h (1-) 1.5 h+h? 1.5 (c) Find the harvesting effort that maximizes the harvest. POS)= 0.5(1-) -0 d) Find the equilibria for this harvesting effort. For each, determine if stable or unstable.

Name: (Resubmission by request) need help with only part D of this problem.
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Description: (Resubmission by request) need help with only part D of this problem. The previous parts should help figure out that part. Thanks! (a) Find the equilibrium population as a function of h. What is the largest h consis-N* = 1.5 N - N* )-h N*N-1.SN* (1-N

Linear Algebra: A Modern Introduction

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Chapter7: Distance And Approximation

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Concept explainers

Unitary Method

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Speed, Time, and Distance

Imagine you and 3 of your friends are planning to go to the playground at 6 in the evening. Your house is one mile away from the playground and one of your friends named Jim must start at 5 pm to reach the playground by walk. The other two friends are 3 miles away.

Profit and Loss

The amount earned or lost on the sale of one or more items is referred to as the profit or loss on that item.

Units and Measurements

Measurements and comparisons are the foundation of science and engineering. We, therefore, need rules that tell us how things are measured and compared. For these measurements and comparisons, we perform certain experiments, and we will need the experiments to set up the devices.

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Question

(Resubmission by request) need help with only part D of this problem. The previous parts should help figure out that part. Thanks!

(a) Find the equilibrium population as a function of h. What is the largest h consis-
N* = 1.5 N - N* )-h N*
N-1.SN* (1-N*)+hN* = 0
020
12. Consider the harvest population model
N41 =
1.5N (1 Nt) - hN.
a the equilibrium population as a function of h. What is the largest h consis-
tent with a nonnegative equilibrium?
Tet N be equilibrium
ON-1.SN CI-N*)+hN* = 0
N* [I-1 S-N*)+n] =0
or N*LI-1SC1-N*n] =0
%3D
(b) Find the equilibrium harvest as a function of h.
P(n)=hN*
Ith
%3D
=h (1-)
1.5
1.5
(c) Find the harvesting effort that maximizes the harvest.
%3D
1.5
PO S) = 0.S(1-)
(d) Find the equilibria for this harvesting effort. For each, determine if stable or
unstable.

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