еР — dPQ 3D е (А+ B) РО — d (А+ B) + e(С+D)Р | — (С+ D) dPQ-bQ, (23)

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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Show me the steps of determine green and the inf is here

The objective of this article is to investigate some
qualitative behavior of the solutions of the nonlinear
difference equation
bxn-k
Xn+1 = Axn+ Bx–k+Cxn-1+ Dxn-o+
dxn-k– exŋ-
n= 0,1,2,.....
(1)
where the coefficients A, B, C, D, b, d, e E (0,0), while
k, 1 and o are positive integers. The initial conditions
X_g,..., X_1,.., X_k, ….., X_1, X are arbitrary positive real
numbers such that k <1< 0. 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.
b and in
%3|
Transcribed Image Text:The objective of this article is to investigate some qualitative behavior of the solutions of the nonlinear difference equation bxn-k Xn+1 = Axn+ Bx–k+Cxn-1+ Dxn-o+ dxn-k– exŋ- n= 0,1,2,..... (1) where the coefficients A, B, C, D, b, d, e E (0,0), while k, 1 and o are positive integers. The initial conditions X_g,..., X_1,.., X_k, ….., X_1, X are arbitrary positive real numbers such that k <1< 0. 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. b and in %3|
Theorem 9.If k is even and 1,0 are odd positive integers,
then Eq. (1) has prime period two solution if the condition
(1— (С+D)) (Зе— d) < (е+d) (А+ В),
(20)
is
valid,
provided
(C+D)
1
and
е (1— (С+D))—d (А+ B) > 0.
Proof.If k is even and 1, 0 are odd positive integers, then
Xn+1 = Xn–1= Xn=o. It follows from Eq.(1)
Xn
Xn-k
and
that
bQ
P=(A+B) Q+(C+D) P –
(21)
(еР — dQ)
and
БР
Q= (A+B) P+(C+D) Q -
(22)
(e Q- dP)
Consequently, we get
e p?
dPQ 3D е (А+ В) РQ— d (A+ B) P+e(С+D)Р
— (С+ D) dPQ-bQ,
(23)
and
e Q – dPQ = e (A+B) PQ– d (A+B) P² + e(C+D) Q
— (С+ D) dPQ— БР.
(24)
By subtracting (24) from (23), we get
b
P+Q=
(25)
[e (1– (C+D))–d (A+B)]’
where e (1- (C+D)) – d (A+B) > 0. By adding (23)
and (24), we obtain
e b° (1– (C+D))
(e+d)[K1+(A+ B)][e K1 – d (A+ B)]² '
PQ=
(26)
-
Transcribed Image Text:Theorem 9.If k is even and 1,0 are odd positive integers, then Eq. (1) has prime period two solution if the condition (1— (С+D)) (Зе— d) < (е+d) (А+ В), (20) is valid, provided (C+D) 1 and е (1— (С+D))—d (А+ B) > 0. Proof.If k is even and 1, 0 are odd positive integers, then Xn+1 = Xn–1= Xn=o. It follows from Eq.(1) Xn Xn-k and that bQ P=(A+B) Q+(C+D) P – (21) (еР — dQ) and БР Q= (A+B) P+(C+D) Q - (22) (e Q- dP) Consequently, we get e p? dPQ 3D е (А+ В) РQ— d (A+ B) P+e(С+D)Р — (С+ D) dPQ-bQ, (23) and e Q – dPQ = e (A+B) PQ– d (A+B) P² + e(C+D) Q — (С+ D) dPQ— БР. (24) By subtracting (24) from (23), we get b P+Q= (25) [e (1– (C+D))–d (A+B)]’ where e (1- (C+D)) – d (A+B) > 0. By adding (23) and (24), we obtain e b° (1– (C+D)) (e+d)[K1+(A+ B)][e K1 – d (A+ B)]² ' PQ= (26) -
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