Show me the steps of determine yellow and information is here step by step Theorem 1. Assume thatB(y + 36) < (1 – a)(y + 8)² anda < 1.Then the equilibrium point of Eq.(1) is locally asymptotically stable.Proof: It is follows by Theorem A that, Eq.(7) is asymptotically stable if+ a +< 1,(y + 8)²|+(y+ 8)²and so3ô + a(y + 8)? + B(y+ 8) + 38 < (y + 8)².Therefore,2,38 + 3(y+ 8) < (y + 8)² – a(y + 8)².Then238 + By + Bồ < (1 – a)(y+ ô)².By + 3B8(c+d)?< (1 — а).B(y+ 38)(y + 8)²< (1 – a).The proof is complete. Bxn-10n-2Xn+1 = axn-2 +n = 0, 1, ...,(1)YIn-1 + dxn-41.The linearized equation of Eq.-(1) about isYn+1 + a2Yn-i+ a1Yn-2 + aoyn-4 == 0,a +(7)Yn+1 +(7 + 6)2Yn +Yn-1(7+ 8)2 Yn-2 = 0.

Note:- In given proof, provided by you in pictures, c and d is written, it is misprint. From…

Theorem 1. Assume that B(y + 38) < (1 – a)(y+ 8)² and a< 1. - Then the equilibrium point of Eq.(1) is locally asymptotically stable. Proof: It is follows by Theorem A that, Eq.(7) is asymptotically stable if (y+8)2 + a + + (y+8)2 < 1,

Theorem 1. Assume that B(y + 38) < (1 – a)(y+ 8)² and a< 1. - Then the equilibrium point of Eq.(1) is locally asymptotically stable. Proof: It is follows by Theorem A that, Eq.(7) is asymptotically stable if (y+8)2 + a + + (y+8)2 < 1,

Advanced Engineering Mathematics

10th Edition

ISBN:9780470458365

Author:Erwin Kreyszig

Publisher:Erwin Kreyszig

Chapter2: Second-order Linear Odes

Section: Chapter Questions

Problem 1RQ

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Question

Show me the steps of determine yellow and information is here step by step

Theorem 1. Assume that
B(y + 36) < (1 – a)(y + 8)² and
a < 1.
Then the equilibrium point of Eq.(1) is locally asymptotically stable.
Proof: It is follows by Theorem A that, Eq.(7) is asymptotically stable if
+ a +
< 1,
(y + 8)²|
+
(y+ 8)²
and so
3ô + a(y + 8)? + B(y+ 8) + 38 < (y + 8)².
Therefore,
2,38 + 3(y+ 8) < (y + 8)² – a(y + 8)².
Then
238 + By + Bồ < (1 – a)(y+ ô)².
By + 3B8
(c+d)?
< (1 — а).
B(y+ 38)
(y + 8)²
< (1 – a).
The proof is complete.

Bxn-10n-2
Xn+1 = axn-2 +
n = 0, 1, ...,
(1)
YIn-1 + dxn-4
1.
The linearized equation of Eq.-(1) about is
Yn+1 + a2Yn-i+ a1Yn-2 + aoyn-4 =
= 0,
a +
(7)
Yn+1 +
(7 + 6)2
Yn +
Yn-1
(7+ 8)2 Yn-2 = 0.

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