Explanation Formula for a surface of a scalar function Parametrically: For a smooth surface smooth surface S defined parametrically as r ( u , v ) = f ( u , v ) i + g ( u , v ) j + h ( u , v ) k , ( u , v ) ∈ R , and a continuous function G ( x , y , z ) defined on S , the surface integral of G over S is given by the double integral over R , ∬ S G ( x , y , z ) d σ = ∬ S G ( f ( u , v ) , g ( u , v ) , h ( u , v ) ) | r u × r v | d u d v Example:1 Find the surface integral of the function G ( x , y , z ) = x over the parabolic cylinder y = x 2 , 0 ≤ x ≤ 2 , 0 ≤ z ≤ 3 . Solution: Write the function. G ( x , y , z ) = x (1) The equation of the parabolic cylinder. y = x 2 Take the parametrization of the surface r ( x , z ) = x i + y j + z k = x i + x 2 j + z k (2) Differentiate Equation (2) with respect to x . r x ( x , z ) = ( 1 ) i + ( 2 x ) j + ( 0 ) k = i + 2 x j Differentiate Equation (2) with respect to z . r z ( x , z ) = ( 0 ) i + ( 0 ) j + ( 1 ) k = z k Find r x × r z . r x × r z = | i j k 1 2 x 0 0 0 1 | = [ ( 2 x ) − ( 0 ) ] i − [ ( 1 ) − 0 ] j + [ ( 0 ) − ( 0 ) ] k = 2 x i − j Find determinant of r x × r z . | r x × r z | = ( 2 x ) 2 + ( 1 ) 2 = 4 x 2 + 1 (3) Find the Surface integral = ∬ S G ( x , y , z ) d σ . Surface integral = ∬ S G ( x , y , z ) | r x × r z | d σ = ∫ 0 3 ∫ 0 2 x 4 x 2 + 1 d x d z = ∫ 0 3 [ 1 12 ( 4 x 2 + 1 ) 3 2 ] 0 2 d z = 1 12 ∫ 0 3 [ ( 4 ( 2 ) 2 + 1 ) 3 2 − ( 4 ( 0 ) 2 + 1 ) 3 2 ] d z Surface integral = 1 12 ∫ 0 3 [ ( 17 ) 3 2 − ( 1 ) 3 2 ] d z = 1 12 ∫ 0 3 [ 17 17 − 1 ] d z = 17 17 − 1 12 ∫ 0 3 d z = 17 17 − 1 12 [ z ] 0 3 Surface integral = 17 17 − 1 12 [ 3 − 0 ] = 17 17 − 1 4 Therefore, the surface integral of the function G ( x , y , z ) = x over the parabolic cylinder y = x 2 , 0 ≤ x ≤ 2 , 0 ≤ z ≤ 3 is 17 17 − 1 4 . Formula for a surface of a scalar function implicitly: For a surface S given implicitly as F ( x , y , z ) = c , where F is a continuously differentiable function, with S lying above its closed and bounded shadow region R in the coordinate plane beneath it, the surface integral of the continuous function G over S is given by the double integral over R , ∬ S G ( x , y , z ) d σ = ∬ R G ( x , y , z ) | ∇ F | | ∇ F ⋅ p | d A . Example:2 Find the surface integral of the function G ( x , y , z ) = x + y + z over the surface of the cube cut from the first octant. Solution: Write the function. The bottom face S of the cube is in the x y -plane . Then z = 0 . f ( x , y , z ) = z = 0 (4) From Equation (1), z = 0 . G ( x , y , z ) = x + y + z = x + y + ( 0 ) = x + y (5) To get a unit vector normal to the plane of S , take p = k . Differentiate Equation (4). ∇ f = f x i + f y j + f z k = ( 0 ) i + ( 0 ) j + ( 1 ) k = k Find determinant of | ∇ F | . | ∇ f | = ( 1 ) 2 = 1 = 1 Find ∇ f ⋅ p . ∇ f ⋅ p = ( k ) ⋅ ( k ) = 1 Find | ∇ f ⋅ p | . | ∇ f ⋅ p | = ( 1 ) 2 = 1 Find d σ . d σ = | ∇ f | | ∇ f ⋅ p | d x d y = 1 1 d x d y = d x d y Find the surface integral ∬ S G ( x , y , z ) d σ = ∬ R G ( x , y , z ) | ∇ f | | ∇ f ⋅ p | d A

University Calculus: Early Transcendentals Plus MyLab Math -- Access Card Package (3rd Edition) (Integrated Review Courses in MyMathLab and MyStatLab)

3rd Edition

ISBN: 9780321999573

Author: Joel R. Hass, Maurice D. Weir, George B. Thomas Jr.

Publisher: PEARSON

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Chapter 15, Problem 12GYR

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Explain the integration of a scalar function over a parameterized surface, implicitly and explicitly with examples.

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Chapter 15, Problem 11GYR

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University Calculus: Early Transcendentals Plus MyLab Math -- Access Card Package (3rd Edition) (Integrated Review Courses in MyMathLab and MyStatLab)

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