Q.2 Consider the IVP(4)(x + 1)²y" – 2y = 0,y(0) = 1, y'(0) = -1.a) Determine all ordinary points of the differential equation. Verify that the solution of the IVP is given via(5)φ(τ)Σ- 1)"α".n=0using the differentiation rule for power series and substituting the expression in the IVP. Determine the radius ofconvergence for its series solution y = 0(x) about xo = 0.b) Using the geometric series show that y = (x +1)-1. Furthermore, determine a fundamental set of solutions of(6)(x + 1)²y" – 2y = 0via reduction of order. Verify that it is a fundamental set of solutions by computing its Wronskian W[y1, y2](x). Findthe solution to the IVP(7)(x+ 1)²y" – 2y = 0,y(0) = 1, y'(0) = 1.

Since you have asked multiple questions, we will solve the first question along with its subparts…

2 Consider the IVP (x + 1)²y" – 2y = 0, y(0) = 1, y'(0) = -1. Determine all ordinary points of the differential equation. Verify that the solution of the IVP is given via $(x) = (-1)"x". %3D n=0 using the differentiation rule for power series and substituting the expression in the IVP. Determine the radius of convergence for its series solution y = ¢(x) about ro = 0. Using the geometric series show that y = (x + 1)¬1. Furthermore, determine a fundamental set of solutions of (x + 1)²y" – 2y = 0

2 Consider the IVP (x + 1)²y" – 2y = 0, y(0) = 1, y'(0) = -1. Determine all ordinary points of the differential equation. Verify that the solution of the IVP is given via $(x) = (-1)"x". %3D n=0 using the differentiation rule for power series and substituting the expression in the IVP. Determine the radius of convergence for its series solution y = ¢(x) about ro = 0. Using the geometric series show that y = (x + 1)¬1. Furthermore, determine a fundamental set of solutions of (x + 1)²y" – 2y = 0

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

Q.2 Consider the IVP
(4)
(x + 1)²y" – 2y = 0,
y(0) = 1, y'(0) = -1.
a) Determine all ordinary points of the differential equation. Verify that the solution of the IVP is given via
(5)
φ(τ)Σ- 1)"α".
n=0
using the differentiation rule for power series and substituting the expression in the IVP. Determine the radius of
convergence for its series solution y = 0(x) about xo = 0.
b) Using the geometric series show that y = (x +1)-1. Furthermore, determine a fundamental set of solutions of
(6)
(x + 1)²y" – 2y = 0
via reduction of order. Verify that it is a fundamental set of solutions by computing its Wronskian W[y1, y2](x). Find
the solution to the IVP
(7)
(x+ 1)²y" – 2y = 0,
y(0) = 1, y'(0) = 1.

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