8. x(x² + 1)²y" + y = 0

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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Q.8

EXERCISES 6.2
In Problems 1–10 determine the singular points of the given
differential equation. Classify each singular point as regular
or irregular.
1. x'y" + 4x²y' + 3y = 0
2. x(x + 3)²y" – y = 0
3. (x² – 9)²y" + (x + 3)y' + 2y = 0
1
y' +
(x – 1)3
1
4. у"
-
5. (x³ + 4x)y" – 2xy' + 6y = 0
6. х?(х — 5)2у"+ 4хy' + (х? — 25) у %3D 0
7. (x² + x – 6)y" + (x + 3)y' + (x – 2)y = 0
8. x(x² + 1)?y" + y = 0
9. х(x2 — 25)(х — 2)°у" + 3x(х — 2)у' + 7(х + 5)у %3D0
10. (x³ – 2x² + 3x)²y" + x(x – 3)²y' – (x + 1)y = 0
-
In Problems 11 and 12 put the given difi 256/426 ati
into form (3) for each regular singular point or tne equation.
Identify the functions p(x) and q(x).
11. (x² – 1)y" + 5(x + 1)y' + (x² – x)y = 0
12. xy" + (x + 3)y' + 7x²y = 0
In Problems 13 and 14, x = 0 is a regular singular point
of the given differential equation. Use the general form of
the indicial equation in (14) to find the indicial roots of the
singularity. Without solving, discuss the number of series
240
CHAPTER 6 SERIES SOLUTIONS OF LINEAR EQUAT
Transcribed Image Text:EXERCISES 6.2 In Problems 1–10 determine the singular points of the given differential equation. Classify each singular point as regular or irregular. 1. x'y" + 4x²y' + 3y = 0 2. x(x + 3)²y" – y = 0 3. (x² – 9)²y" + (x + 3)y' + 2y = 0 1 y' + (x – 1)3 1 4. у" - 5. (x³ + 4x)y" – 2xy' + 6y = 0 6. х?(х — 5)2у"+ 4хy' + (х? — 25) у %3D 0 7. (x² + x – 6)y" + (x + 3)y' + (x – 2)y = 0 8. x(x² + 1)?y" + y = 0 9. х(x2 — 25)(х — 2)°у" + 3x(х — 2)у' + 7(х + 5)у %3D0 10. (x³ – 2x² + 3x)²y" + x(x – 3)²y' – (x + 1)y = 0 - In Problems 11 and 12 put the given difi 256/426 ati into form (3) for each regular singular point or tne equation. Identify the functions p(x) and q(x). 11. (x² – 1)y" + 5(x + 1)y' + (x² – x)y = 0 12. xy" + (x + 3)y' + 7x²y = 0 In Problems 13 and 14, x = 0 is a regular singular point of the given differential equation. Use the general form of the indicial equation in (14) to find the indicial roots of the singularity. Without solving, discuss the number of series 240 CHAPTER 6 SERIES SOLUTIONS OF LINEAR EQUAT
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