Approximate the integral using (a) the midpoint approximation M 10 , (b) the trapezoidal approximation T 10 , and (c) Simpson’s rule approximation S 20 using Formula (7). In each case, find the exact value of the integral and approximate the absolute error. Express your answer to at least four decimal places. ∫ 0 3 x + 1 d x
Approximate the integral using (a) the midpoint approximation M 10 , (b) the trapezoidal approximation T 10 , and (c) Simpson’s rule approximation S 20 using Formula (7). In each case, find the exact value of the integral and approximate the absolute error. Express your answer to at least four decimal places. ∫ 0 3 x + 1 d x
Approximate the integral using (a) the midpoint approximation
M
10
,
(b) the trapezoidal approximation
T
10
,
and (c) Simpson’s rule approximation
S
20
using Formula (7). In each case, find the exact value of the integral and approximate the absolute error. Express your answer to at least four decimal places.
∫
0
3
x
+
1
d
x
With differentiation, one of the major concepts of calculus. Integration involves the calculation of an integral, which is useful to find many quantities such as areas, volumes, and displacement.
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Numerical Integration Introduction l Trapezoidal Rule Simpson's 1/3 Rule l Simpson's 3/8 l GATE 2021; Author: GATE Lectures by Dishank;https://www.youtube.com/watch?v=zadUB3NwFtQ;License: Standard YouTube License, CC-BY