On what region of the xy-plane does the differential equation would have a unique solution that satisfies the given initial condition. (9-y²)y'=x², y(-4)=-4 a. A uniquesolution exists in the regions y< -3. b. A unique solution exists in the regiony y ±3. C. A unique solution exists in the region consisting of all points in the xy-plane except (0,3) and (0, -3). d. A unique solution exists in the regiony -3
On what region of the xy-plane does the differential equation would have a unique solution that satisfies the given initial condition. (9-y²)y'=x², y(-4)=-4 a. A uniquesolution exists in the regions y< -3. b. A unique solution exists in the regiony y ±3. C. A unique solution exists in the region consisting of all points in the xy-plane except (0,3) and (0, -3). d. A unique solution exists in the regiony -3
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:**
On what region of the xy-plane does the differential equation have a unique solution that satisfies the given initial condition.
\[
(9 - y^2)y' = x^2, \quad y(-4) = -4
\]
a. A unique solution exists in the regions \( y < -3 \).
b. A unique solution exists in the region \( y \neq \pm 3 \).
c. A unique solution exists in the region consisting of all points in the xy-plane except \((0,3)\) and \((0, -3)\).
d. A unique solution exists in the region \(-3 < y < 3\).
e. A unique solution exists in the entire xy-plane.
Options:
- ( ) a
- ( ) b
- ( ) c
- ( ) d
- ( ) e](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fa72e8965-bd79-4464-a740-a72095a0be2c%2F08a6a1fe-ca00-4999-b1f1-3a51b4079223%2F7kt3cnk_processed.png&w=3840&q=75)
Transcribed Image Text:**Question:**
On what region of the xy-plane does the differential equation have a unique solution that satisfies the given initial condition.
\[
(9 - y^2)y' = x^2, \quad y(-4) = -4
\]
a. A unique solution exists in the regions \( y < -3 \).
b. A unique solution exists in the region \( y \neq \pm 3 \).
c. A unique solution exists in the region consisting of all points in the xy-plane except \((0,3)\) and \((0, -3)\).
d. A unique solution exists in the region \(-3 < y < 3\).
e. A unique solution exists in the entire xy-plane.
Options:
- ( ) a
- ( ) b
- ( ) c
- ( ) d
- ( ) e
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