Explanation Definition used: Degree of accuracy or precision : “The degree of accuracy or precision of a quadrature formula is the largest positive integer n such that the formula is exact for x k , for each k = 0 , 1 , … , n . Calculation: The given quadrature formula is ∫ a b f ( x ) d x = 9 4 h f ( x 1 ) + 3 4 h f ( x 2 ) , where h = ( b − a ) 3 , x 0 = a , x 1 = a + h and x 2 = b . Consider the function f ( x ) = x k . Write x 1 = a + h in terms of a and b as shown below. x 1 = a + h = a + ( b − a 3 ) = 3 a + b − a 3 = b + 2 a 3 Check whether the quadrature formula is exact for k = 0 as follows. For k = 0 , ∫ a b f ( x ) d x = 9 4 h f ( x 1 ) + 3 4 h f ( x 2 ) ∫ a b d x = 9 4 ( b − a ) 3 ( ( x 1 ) 0 ) + 3 4 ( b − a ) 3 ( ( x 2 ) 0 ) [ x ] b a = 3 4 ( b − a ) ( 1 ) + 3 4 ( b − a ) ( 1 ) b − a = b − a Therefore, the quadrature formula is exact for f ( x ) = x 0 . Now check whether the quadrature formula is exact for k = 1 as shown below. For k = 1 , ∫ a b f ( x ) d x = 9 4 h f ( x 1 ) + 3 4 h f ( x 2 ) ∫ a b x d x = 9 4 ( b − a ) 3 ( x 1 ) + 3 4 ( b − a ) 3 ( x 2 ) [ x 2 2 ] b a = 3 4 ( b − a ) ( b + 2 a ) + 1 4 ( b − a ) ( b ) b 2 − a 2 2 = 3 4 ( b 2 + 2 a b − a b − 2 a 2 ) + 1 4 ( b 2 − a b ) On further simplification, b 2 − a 2 2 = b 2 + 2 a b − a b − 2 a 2 + b 2 − a b 4 b 2 − a 2 2 = 2 b 2 − 2 a 2 4 b 2 − a 2 2 = 2 ( b 2 − a 2 ) 4 b 2 − a 2 2 = b 2 − a 2 2 Therefore, the quadrature formula is exact for f ( x ) = x . Check whether the quadrature formula is exact for k = 2 as shown below

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Chapter 4.3, Problem 20ES

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The degree of precision of the quadrature formula ∫abf(x)dx=94hf(x1)+34hf(x2).

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Chapter 4.3, Problem 19ES

Chapter 4.3, Problem 21ES

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The degree of precision of the quadrature formula ∫ a b f ( x ) d x = 9 4 h f ( x 1 ) + 3 4 h f ( x 2 ) .

Solution Summary: The author calculates the degree of accuracy or precision of a quadrature formula by calculating the function f(x).

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The degree of precision of the quadrature formula ∫abf(x)dx=94hf(x1)+34hf(x2).

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Chapter 4 Solutions