How to deduce this equation from Equation 1 Explain to me the method. Show me the steps of determine red and equation 1 is second pic Theorem 10.If 1 is even and k, o are odd positive integers,then Eq. (1) has prime period two solution if the condition(A+C) (3e- d) < (e+d)(1 – (B+ D)),(29)isvalid,provided(B+D)1andd (1 – (B+ D)) – e (A+ C) > 0.-Proof.If 1 is even and k, o are odd positive integers, thenXn = Xp-1 and Xn+1 = Xn-k = Xn-o. It follows from Eq.(1)thatbPP= (A+C) Q+(B+D) P –(30)(e Q- dP)andbQQ= (A+C)P+(B+D) Q –(31)(e P- dQ)'Consequently, we getbP+Q=(32)[d (1– (B+D)) – e (A+C)]'where d (1 – (B+D)) – e (A+C) > 0,e b (A+ C)PQ=(e+d)[K2+(A+C)][d K2 – e (A+C)]²(33)(1– (B+ D)), provided (B+ D) < 1.where K2Substituting (32) and (33) into (28), we get the condition(29). Thus, the proof is now completed.O Thus, we deduce that(P+ Q)² > 4PQ.(28)The objective of this article is to investigate somequalitative behavior of the solutions of the nonlineardifference equationbxn-k[dxn-k - exp-1)Xn+1 =Axn+ Bxn-k+Cxn–1+Dxn-o +n = 0,1,2,..where the coefficients A, B, C, D, b, d, e e (0,00), whilek, 1 and o are positive integers. The initial conditionsX-6…, X_1,..., X_k, ..., X_1, Xo are arbitrary positive realnumbers such that k <1< o. Note that the special casesof Eq.(1) have been studied in [1] when B= C = D=0,and k= 0,1= 1, b is replaced by – b and in [27] whenB= C= D=0, and k= 0, b is replaced by[33] when B = C = D = 0, 1 = 0 and in [32] whenA = C= D=0, 1= 0, b is replaced by – b.(1)b and in%3D

The equation given to us is as follows:…

Theorem 10.If 1 is even and k, o are odd positive integers, then Eq. (1) has prime period two solution if the condition (A+C) (3e– d) < (e+d)(1– (B+D)), (29) is valid, (B+D) < 1 provided d (1 – (B+ D)) – e (A+ C) > 0. and

Theorem 10.If 1 is even and k, o are odd positive integers, then Eq. (1) has prime period two solution if the condition (A+C) (3e– d) < (e+d)(1– (B+D)), (29) is valid, (B+D) < 1 provided d (1 – (B+ D)) – e (A+ C) > 0. and

Linear Algebra: A Modern Introduction

4th Edition

ISBN:9781285463247

Author:David Poole

Publisher:David Poole

Chapter2: Systems Of Linear Equations

Section2.4: Applications

Problem 32EQ

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Question

How to deduce this equation from Equation 1 Explain to me the method. Show me the steps of determine red and equation 1 is second pic

Theorem 10.If 1 is even and k, o are odd positive integers,
then Eq. (1) has prime period two solution if the condition
(A+C) (3e- d) < (e+d)(1 – (B+ D)),
(29)
is
valid,
provided
(B+D)
1
and
d (1 – (B+ D)) – e (A+ C) > 0.
-
Proof.If 1 is even and k, o are odd positive integers, then
Xn = Xp-1 and Xn+1 = Xn-k = Xn-o. It follows from Eq.(1)
that
bP
P= (A+C) Q+(B+D) P –
(30)
(e Q- dP)
and
bQ
Q= (A+C)P+(B+D) Q –
(31)
(e P- dQ)'
Consequently, we get
b
P+Q=
(32)
[d (1– (B+D)) – e (A+C)]'
where d (1 – (B+D)) – e (A+C) > 0,
e b (A+ C)
PQ=
(e+d)[K2+(A+C)][d K2 – e (A+C)]²
(33)
(1– (B+ D)), provided (B+ D) < 1.
where K2
Substituting (32) and (33) into (28), we get the condition
(29). Thus, the proof is now completed.O

Thus, we deduce that
(P+ Q)² > 4PQ.
(28)
The objective of this article is to investigate some
qualitative behavior of the solutions of the nonlinear
difference equation
bxn-k
[dxn-k - exp-1)
Xn+1 =
Axn+ Bxn-k+Cxn–1+Dxn-o +
n = 0,1,2,..
where the coefficients A, B, C, D, b, d, e e (0,00), while
k, 1 and o are positive integers. The initial conditions
X-6…, X_1,..., X_k, ..., X_1, Xo are arbitrary positive real
numbers such that k <1< o. Note that the special cases
of Eq.(1) have been studied in [1] when B= C = D=0,
and k= 0,1= 1, b is replaced by – b and in [27] when
B= C= D=0, and k= 0, b is replaced by
[33] when B = C = D = 0, 1 = 0 and in [32] when
A = C= D=0, 1= 0, b is replaced by – b.
(1)
b and in
%3D

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