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∮_0^1▒∫_1^2▒〖(x^2+y^2)dxdy〗using simpson's one third rule

  1. ∮_0^1▒∫_1^2▒〖(x^2+y^2)dxdy〗using simpson's one third rule
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    2. Anonymous asked by Anonymous
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  2. I need to compare and contrast Weddle's Rule and Simpson's rule and outline a distinguishing difference between them. I
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    2. Sam asked by Sam
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  3. use symmetry to evaluate the double integral (1+x^2siny+y^2sinx)dA, R=[-pi,pi]x[-pi,pi].let g(x) and h(y) be two functions:
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    2. Inna asked by Inna
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  4. ∮_0^1▒∫_1^2▒〖(x^2+y^2)dxdy〗using simpsons one third rule
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    2. tanaka asked by tanaka
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  5. Use the Trapezoidal Rule, the Midpoint Rule, and Simpson's Rule to approximate the given integral with the specified value of n.
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    2. sara asked by sara
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  6. Use the trapezoidal rule and simpson's rule to approximate the value of the definite integral ∫2,1 ln xdx; n =4
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    2. Anonymous asked by Anonymous
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  7. Is the simpson's rule always more accurate than the midpoint rule and trapezoidal rule?Not always; it is possible that the
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    2. 413 asked by 413
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  8. Internal 1/sqrt(1+x^3) from [0,2] and n=10(a) Use the Trapezoidal Rule to approximate the given integral with the specified
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    2. Kaitlyn asked by Kaitlyn
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  9. use the simpson's rule with n=10 to estimate arc length of y=x^(-1/3), for 1<=x<6
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    2. Rick asked by Rick
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  10. Use Simpson’s rule to estimate ∫_0^2▒〖1/8 e〗^(x^2 ) dx with a maximum error of 0.1
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    2. Dust asked by Dust
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