x(t) increases monotonically and approaches 1 as t → ∞ is to be shown by solving for X(t) and Y(t) and also by deriving a differential equation for x(t) . Concept Introduction: The model which describes population growth of organisms is N ˙ = rN , where N(t) is population at time t and r is growth rate . The more accurate model is given by Verhulst, known as the logistic model, which postulates that the relative growth rate N ˙ N decreases linearly with N. The corresponding logistic equation is N ˙ = rN ( 1 − N K )

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Page < 2 of 2 - ZOOM + The set of all 3 x 3 upper triangular matrices 6) Determine whether each of the following sets, together with the standard operations, is a vector space. If it is, then simply write 'Vector space'. You do not have to prove all ten vector space axioms. If it is not, then identify one of the ten vector space axioms with its number in the attached sheet that fails and also show that how it fails. a) The set of all polynomials of degree four or less. b) The set of all 2 x 2 singular matrices. c) The set {(x, y) : x ≥ 0, y is a real number}. d) C[0,1], the set of all continuous functions defined on the interval [0,1]. 7) Given u = (-2,1,1) and v = (4,2,0) are two vectors in R³-space. Find u xv and show that it is orthogonal to both u and v. 8) a) Find the equation of the least squares regression line for the data points below. (-2,0), (0,2), (2,2) b) Graph the points and the line that you found from a) on the same Cartesian coordinate plane.

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Chapter 2.3, Problem 5E

Interpretation Introduction

Interpretation:

x(t) increases monotonically and approaches 1 as t→∞ is to be shown by solving for X(t) and Y(t) and also by deriving a differential equation for x(t).

Concept Introduction:

The model which describes population growth of organisms is N˙ = rN ,where N(t) is population at time t and r is growth rate.

The more accurate model is given by Verhulst, known as the logistic model, which postulates that the relative growth rate N˙N decreases linearly with N. The corresponding logistic equation is

N˙ = rN (1−NK)

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