11X1 T14 07 approximations
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11X1 T14 07 approximations - Presentation Transcript
- Approximations To Areas (1) Trapezoidal Rule y y = f(x) a b x
- Approximations To Areas (1) Trapezoidal Rule y y = f(x) a b x
- Approximations To Areas (1) Trapezoidal Rule y y = f(x) ba A f a f b 2 a b x
- Approximations To Areas (1) Trapezoidal Rule y y = f(x) ba A f a f b 2 y y = f(x) a b x a b x
- Approximations To Areas (1) Trapezoidal Rule y y = f(x) ba A f a f b 2 y y = f(x) a b x a c b x
- Approximations To Areas (1) Trapezoidal Rule y y = f(x) ba A f a f b 2 y y = f(x) a b x ca bc A f a f c f c f b 2 2 a c b x
- Approximations To Areas (1) Trapezoidal Rule y y = f(x) ba A f a f b 2 y y = f(x) a b x ca bc A f a f c f c f b 2 2 ca f a 2 f c f b 2 a c b x
- y y = f(x) a b x
- y y = f(x) a c d b x
- y y = f(x) ca d c A f a f c f c f d 2 2 bd f d f b 2 a c d b x
- y y = f(x) ca d c A f a f c f c f d 2 2 bd f d f b 2 a c d b x c a f a 2 f c 2 f d f b 2
- y y = f(x) ca d c A f a f c f c f d 2 2 bd f d f b 2 a c d b x c a f a 2 f c 2 f d f b 2 In general;
- y y = f(x) ca d c A f a f c f c f d 2 2 bd f d f b 2 a c d b x c a f a 2 f c 2 f d f b 2 In general; b Area f x dx a
- y y = f(x) ca d c A f a f c f c f d 2 2 bd f d f b 2 a c d b x c a f a 2 f c 2 f d f b 2 In general; b Area f x dx a h y0 2 yothers yn 2
- y y = f(x) ca d c A f a f c f c f d 2 2 bd f d f b 2 a c d b x c a f a 2 f c 2 f d f b 2 In general; b Area f x dx a h y0 2 yothers yn 2 ba where h n n number of trapeziums
- y y = f(x) ca d c A f a f c f c f d 2 2 bd f d f b 2 a c d b x c a f a 2 f c 2 f d f b 2 In general; b Area f x dx a h y0 2 yothers yn NOTE: there is 2 ba always one more where h function value n than interval n number of trapeziums
- e.g. Use the Trapezoidal Rule with 4 intervals to estimate the area under the curve y 4 x , between x 0 and x 2 1 2 2 correct to 3 decimal points
- e.g. Use the Trapezoidal Rule with 4 intervals to estimate the area under the curve y 4 x , between x 0 and x 2 1 2 2 correct to 3 decimal points ba h n 20 4 0.5
- e.g. Use the Trapezoidal Rule with 4 intervals to estimate the area under the curve y 4 x , between x 0 and x 2 1 2 2 correct to 3 decimal points ba h n x 0 0.5 1 1.5 2 y 20 2 1.9365 1.7321 1.3229 0 4 0.5
- e.g. Use the Trapezoidal Rule with 4 intervals to estimate the area under the curve y 4 x , between x 0 and x 2 1 2 2 correct to 3 decimal points ba h n x 0 0.5 1 1.5 2 y 20 2 1.9365 1.7321 1.3229 0 h 4 Area y0 2 yothers yn 0.5 2
- e.g. Use the Trapezoidal Rule with 4 intervals to estimate the area under the curve y 4 x , between x 0 and x 2 1 2 2 correct to 3 decimal points ba 1 1 h n x 0 0.5 1 1.5 2 y 20 2 1.9365 1.7321 1.3229 0 h 4 Area y0 2 yothers yn 0.5 2
- e.g. Use the Trapezoidal Rule with 4 intervals to estimate the area under the curve y 4 x , between x 0 and x 2 1 2 2 correct to 3 decimal points ba 1 2 2 2 1 h n x 0 0.5 1 1.5 2 y 20 2 1.9365 1.7321 1.3229 0 h 4 Area y0 2 yothers yn 0.5 2
- e.g. Use the Trapezoidal Rule with 4 intervals to estimate the area under the curve y 4 x , between x 0 and x 2 1 2 2 correct to 3 decimal points ba 1 2 2 2 1 h n x 0 0.5 1 1.5 2 y 20 2 1.9365 1.7321 1.3229 0 h 4 Area y0 2 yothers yn 0.5 2 0.5 2 21.9365 1.7321 1.3229 0 2 2.996 units 2
- e.g. Use the Trapezoidal Rule with 4 intervals to estimate the area under the curve y 4 x , between x 0 and x 2 1 2 2 correct to 3 decimal points ba 1 2 2 2 1 h n x 0 0.5 1 1.5 2 y 20 2 1.9365 1.7321 1.3229 0 h 4 Area y0 2 yothers yn 0.5 2 0.5 2 21.9365 1.7321 1.3229 0 2 2.996 units 2 exact value π
- e.g. Use the Trapezoidal Rule with 4 intervals to estimate the area under the curve y 4 x , between x 0 and x 2 1 2 2 correct to 3 decimal points ba 1 2 2 2 1 h n x 0 0.5 1 1.5 2 y 20 2 1.9365 1.7321 1.3229 0 h 4 Area y0 2 yothers yn 0.5 2 0.5 2 21.9365 1.7321 1.3229 0 2 2.996 units 2 exact value π 3.142 2.996 % error 100 3.142 4.6%
- (2) Simpson’s Rule
- (2) Simpson’s Rule b Area f x dx a
- (2) Simpson’s Rule b Area f x dx a h y0 4 yodd 2 yeven yn 3
- (2) Simpson’s Rule b Area f x dx a h y0 4 yodd 2 yeven yn 3 ba where h n n number of intervals
- (2) Simpson’s Rule b Area f x dx a h y0 4 yodd 2 yeven yn 3 ba where h n n number of intervals e.g. x 0 0.5 1 1.5 2 y 2 1.9365 1.7321 1.3229 0
- (2) Simpson’s Rule b Area f x dx a h y0 4 yodd 2 yeven yn 3 ba where h n n number of intervals e.g. x 0 0.5 1 1.5 2 y 2 1.9365 1.7321 1.3229 0 h Area y0 4 yodd 2 yeven yn 3
- (2) Simpson’s Rule b Area f x dx a h y0 4 yodd 2 yeven yn 3 ba where h n n number of intervals e.g. 1 1 x 0 0.5 1 1.5 2 y 2 1.9365 1.7321 1.3229 0 h Area y0 4 yodd 2 yeven yn 3
- (2) Simpson’s Rule b Area f x dx a h y0 4 yodd 2 yeven yn 3 ba where h n n number of intervals e.g. 1 4 4 1 x 0 0.5 1 1.5 2 y 2 1.9365 1.7321 1.3229 0 h Area y0 4 yodd 2 yeven yn 3
- (2) Simpson’s Rule b Area f x dx a h y0 4 yodd 2 yeven yn 3 ba where h n n number of intervals e.g. 1 4 2 4 1 x 0 0.5 1 1.5 2 y 2 1.9365 1.7321 1.3229 0 h Area y0 4 yodd 2 yeven yn 3
- (2) Simpson’s Rule b Area f x dx a h y0 4 yodd 2 yeven yn 3 ba where h n n number of intervals e.g. 1 4 2 4 1 x 0 0.5 1 1.5 2 y 2 1.9365 1.7321 1.3229 0 h Area y0 4 yodd 2 yeven yn 3 0.5 2 41.9365 1.3229 21.7321 0 3 3.084 units 2
- (2) Simpson’s Rule b Area f x dx a h y0 4 yodd 2 yeven yn 3 ba where h n n number of intervals e.g. 1 4 2 4 1 x 0 0.5 1 1.5 2 y 2 1.9365 1.7321 1.3229 0 h Area y0 4 yodd 2 yeven yn 3 0.5 2 41.9365 1.3229 21.7321 0 3.142 3.084 3 % error 100 3.084 units 2 3.142 1.8%
- Exercise 11I; odds Exercise 11J; evens
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