Explanation Given: The Lotka-Voltera model is x ′ = r 1 K 1 x ( K 1 − x − α 12 y ) and y ′ = r 2 K 2 y ( K 2 − y − α 21 x ) . Calculation: The equations of Lotka-Voltera model is given as follows: x ′ = r 1 K 1 x ( K 1 − x − α 12 y ) … … ( 1 ) y ′ = r 2 K 2 y ( K 2 − y − α 21 x ) … … ( 2 ) Consider P ( x , y ) = x ′ and substitute in equation ( 1 ) . P ( x , y ) = r 1 K 1 x ( K 1 − x − α 12 y ) … … ( 3 ) Consider Q ( x , y ) = y ′ and substitute in equation ( 2 ) . Q ( x , y ) = r 2 K 2 y ( K 2 − y − α 21 x ) … … ( 4 ) Differentiate equation ( 3 ) partially with respect to x . ∂ P ∂ x = r 1 K 1 ( K 1 − 2 x − α 12 y ) Differentiate equation ( 3 ) partially with respect to y . ∂ P ∂ y = − r 1 K 1 α 12 x Differentiate equation ( 4 ) partially with respect to x . ∂ Q ∂ x = − r 2 K 2 α 21 y Differentiate the both sides of the equation ( 4 ) with respect to y . ∂ Q ∂ y = r 2 K 2 ( K 2 − 2 y − α 21 x ) The Jacobian matrix is given as follows: g ′ ( x , y ) = ( ∂ P ∂ x ∂ P ∂ y ∂ Q ∂ x ∂ Q ∂ y ) Substitute the values of ∂ P ∂ x , ∂ P ∂ y , ∂ Q ∂ x and ∂ Q ∂ y in above equation. g ′ ( x , y ) = ( r 1 K 1 ( K 1 − 2 x − α 12 y ) − r 1 K 1 α 12 x − r 2 K 2 α 21 y r 2 K 2 ( K 2 − 2 y − α 21 x ) ) … … ( 5 ) At the critical point ( 0 , 0 ) the Jacobian matrix of equation ( 5 ) is given as follows: g ′ ( 0 , 0 ) = ( r 1 0 0 r 2 ) The determinant of the above matrix is calculated as follows: Δ = | r 1 0 0 r 2 | = r 1 ( r 2 ) − 0 = r 1 r 2 Consider the trace point τ and τ is equal to the sum of the diagonal elements of the above matrix. τ = r 1 + r 2 Calculate the value of τ 2 − 4 Δ as follows: τ 2 − 4 Δ = ( r 1 + r 2 ) 2 − 4 ( r 1 r 2 ) = r 1 2 + r 2 2 + 2 r 1 r 2 − 4 r 1 r 2 = r 1 2 + r 2 2 − 2 r 1 r 2 = ( r 1 − r 2 ) 2 When r 1 ≠ r 2 the value of Δ = r 1 r 2 > 0 , τ = r 1 + r 2 > 0 , τ 2 − 4 Δ = ( r 1 + r 2 ) 2 − 4 ( r 1 r 2 ) > 0 . The condition for a critical point to be an unstable node is that the value of τ 2 − 4 Δ > 0 , τ > 0 and Δ > 0 . For the critical point ( 0 , 0 ) the above conditions are satisfied. Therefore, the critical point ( 0 , 0 ) is an unstable node. At the critical point ( K 1 , 0 ) the Jacobian matrix of equation ( 5 ) is as follows: g ′ ( k 1 , 0 ) = ( − r 1 − r 1 α 12 0 r 2 ( 1 − K 1 K 2 α 21 ) ) The determinant of the above matrix is calculated as follows: Δ = | − r 1 − r 1 α 12 0 r 2 ( 1 − K 1 K 2 α 21 ) | = − r 1 [ r 2 ( 1 − K 1 K 2 α 21 ) ] − 0 = − r 1 r 2 ( 1 − K 1 K 2 α 21 ) Consider the trace point τ and τ is equal to the sum of the diagonal elements of the matrix. τ = − r 1 + r 2 ( 1 − K 1 K 2 α 21 ) … … ( 6 ) Assume the new coefficient as follows: c = 1 − K 1 K 2 α 21 … … ( 7 ) Substitute 1 − K 1 K 2 α 21 = c in equation ( 6 )

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Chapter 11.4, Problem 14E

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To show: The points (0,0),(K1,0) and (0,K2) are unstable in Lotka-Voltera if X^=(x^,y^) is a stable node.

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Chapter 11.4, Problem 13E

Chapter 11.4, Problem 15E

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Ch. 11.1 - Prob. 1E Ch. 11.1 - Prob. 2E Ch. 11.1 - Prob. 3E Ch. 11.1 - Prob. 4E Ch. 11.1 - Prob. 5E Ch. 11.1 - Prob. 6E Ch. 11.1 - Prob. 7E Ch. 11.1 - Prob. 8E Ch. 11.1 - Prob. 9E Ch. 11.1 - Prob. 10E

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The points ( 0 , 0 ) , ( K 1 , 0 ) and ( 0 , K 2 ) are unstable in Lotka-Voltera if X ^ = ( x ^ , y ^ ) is a stable node.

Solution Summary: The author explains the equations of Lotka-Voltera model.

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To show: The points (0,0),(K1,0) and (0,K2) are unstable in Lotka-Voltera if X^=(x^,y^) is a stable node.

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Chapter 11 Solutions