Explanation Given: The second order differential equation is x ″ + x ′ ( 1 − x 3 ) − x 2 = 0 . Calculation: The second order differential equation is given as follows x ″ + x ′ ( 1 − x 3 ) − x 2 = 0 … … ( 1 ) Substitute y for x ′ in equation ( 1 ) . y ′ + y ( 1 − x 3 ) − x 2 = 0 y ′ = x 2 − y ( 1 − x 3 ) The system of differential equation formed is as follows: y ′ = x 2 − y ( 1 − x 3 ) … … ( 2 ) x ′ = y … … ( 3 ) Consider that x ′ = P ( x , y ) and y ′ = Q ( x , y ) . The above equations are written as follows: P ( x , y ) = y Q ( x , y ) = x 2 − y ( 1 − x 3 ) The critical point ( x , y ) is the point for which x ′ = 0 and y ′ = 0 . Solve the equation x ′ = 0 as follows: x ′ = 0 y = 0 Solve the equation y ′ = 0 as follows: y ′ = 0 x 2 − y ( 1 − x 3 ) = 0 Substitute 0 for y in the above equation. x 2 − ( 0 ) ( 1 − x 3 ) = 0 x 2 = 0 x = 0 The critical point for the given differential equation is ( 0 , 0 )

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Chapter 10.3, Problem 23E

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The nature of the critical points for the second order differential equation x″+x′(1−x3)−x2=0.

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Chapter 10.3, Problem 22E

Chapter 10.3, Problem 24E

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The nature of the critical points for the second order differential equation x ″ + x ′ ( 1 − x 3 ) − x 2 = 0 .

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