Explanation Procedure used: Solution to a differential equation: The n th-order ordinary differential equation is one dependent variable by the general form, F ( x , y , y ' , ... , y ( n ) ) = 0 Where F is a real valued function of n + 2 variables: x , y , y ' , ... , y ( n ) . The solution of an n th-order ordinary differential equation is a function ϕ that possesses at least n derivatives and satisfying the differential equation on interval I , i.e. F ( x , ϕ ( x ) , ϕ ' ( x ) , ... , ϕ ( n ) ( x ) ) = 0 for all x in I . Consider the given differential equation d y d x = − x y and the given function y = { 25 − x 2 , − 5 < x < 0 − 25 − x 2 , 0 ≤ x < 5 . Let the function be y = f ( x ) , Where f ( x ) = 25 − x 2

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Publisher: Jones & Bartlett Learning

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Differential Equations

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Chapter 1.1, Problem 30E

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To explain: Why the function y={25−x2, −5<x<0−25−x2, 0≤x<5 is not a solution to the differential equation dydx=−xy on (−5,5).

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Chapter 1.1, Problem 29E

Chapter 1.1, Problem 31E

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Chapter 1 Solutions

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Why the function y = { 25 − x 2 , − 5 < x < 0 − 25 − x 2 , 0 ≤ x < 5 is not a solution to the differential equation d y d x = − x y on ( − 5 , 5 ) .

Solution Summary: The author explains why the function y=lsqrt25-x2,5endarrangement is not

Concept explainers

Videos

To explain: Why the function y={25−x2, −5<x<0−25−x2, 0≤x<5 is not a solution to the differential equation dydx=−xy on (−5,5).

Want to see the full answer?

Chapter 1 Solutions

Why the function y = { 25 − x 2 , − 5 &lt; x &lt; 0 − 25 − x 2 , 0 ≤ x &lt; 5 is not a solution to the differential equation d y d x = − x y on ( − 5 , 5 ) .

Solution Summary: The author explains why the function y=lsqrt25-x2,5endarrangement is not

Concept explainers

Videos

To explain: Why the function y={25−x2, −5<x<0−25−x2, 0≤x<5 is not a solution to the differential equation dydx=−xy on (−5,5).

Want to see the full answer?

Chapter 1 Solutions

Why the function y = { 25 − x 2 , − 5 < x < 0 − 25 − x 2 , 0 ≤ x < 5 is not a solution to the differential equation d y d x = − x y on ( − 5 , 5 ) .