(a) Explanation Given: The vector function F ( x , y ) = 2 x y i ^ + x 2 j ^ , and the path is C 1 : r 1 ( t ) = t i ^ + t 2 j ^ , 0 ≤ t ≤ 1 . Formula used: Integration of a function x n is given as, ∫ x n = x n + 1 n + 1 + C Derivative of a function x n with respect to x is given as, d ( x n ) d x = n x n − 1 Partial differentiation of a function x n with respect to x is given as, ∂ ( x n ) ∂ x = n x n − 1 Calculation: A vector field F ( x , y ) = M i ^ + N j ^ is said to be conservative if and only if ∂ M ∂ y = ∂ N ∂ x , where M and N are both differentiable. Here, M = 2 x y Partial differentiate both sides with respect to ‘ y ’. ∂ M ∂ y = ∂ ∂ y ( 2 x y ) = 2 x ∂ ∂ y ( y ) = 2 x ( 1 ) = 2 x And, N = x 2 Partial differentiate both sides with respect to ‘ x ’. ∂ N ∂ x = ∂ ∂ x ( x 2 ) = 2 x As, ∂ M ∂ y = ∂ N ∂ x , thus the given vector function is conservative. Consider C 1 : r 1 ( t ) = t i ^ + t 2 j ^ , 0 ≤ t ≤ 1 . Differentiate both sides with respect to ‘ t ’ (b) To determine To calculate: The value of ∫ C F ⋅ d r along the given path C 2 : r 2 ( t ) = t i ^ + t 3 j ^ , 0 ≤ t ≤ 1 .

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Chapter 15.3, Problem 23E

(a)

To determine

To calculate: The value of ∫CF⋅dr along the given path C1:r1(t)=ti^+t2j^,0≤t≤1.

(b)

To determine

To calculate: The value of ∫CF⋅dr along the given path C2:r2(t)=ti^+t3j^,0≤t≤1.

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Chapter 15.3, Problem 22E

Chapter 15.3, Problem 24E

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EBK CALCULUS: EARLY TRANSCENDENTAL FUNC

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The value of ∫ C F ⋅ d r along the given path C 1 : r 1 ( t ) = t i ^ + t 2 j ^ , 0 ≤ t ≤ 1 .

Solution Summary: The author explains how to calculate the value of a vector function xn along the given path.

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To calculate: The value of ∫CF⋅dr along the given path C1:r1(t)=ti^+t2j^,0≤t≤1.

To calculate: The value of ∫CF⋅dr along the given path C2:r2(t)=ti^+t3j^,0≤t≤1.

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Chapter 15 Solutions