Length of a curve using numerical methods

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Simpson's Rule is one of many methods used to calculate integrals numerically.

From the Length of curve page, the length can be calculated using the integral: sqr(1+f '(x)2)dx

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Instead of evaluating integrals with a table, a numerical method called Simpson's rule can be used:

the length of the curve after n iterations = Ln = (Δx/3)(f(x0) + 4f(x1) + 2f(x2) + 4f(x3) + 2f(x4) + ...+ 2f(xn-2) + 4f(xn-1) + f(xn))

where Δx = (b-a)/n with a and b being the boundaries and n the number of iterations of the calculation.

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The length of curve equation used in the heating liquid example was sqr(1+(30e−0.3t)2)dt

using boundary conditions of 0 and 5 minutes, and using 10 iterations, the problem becomes:

g(t) = sqr(1+(30e−0.3t)2

Δt = (5-0)/10 = 1/2

the subintervals are {0, 1/2, 1, 3/2, 2, 5/2, 3, 7/2, 4, 9/2, 5}

and the answer is thus = (1/6)(g(0) + 4g(1/2) + 2g(1) + 4g(3/2) + 2g(2) + 4g(5/2) + 2g(3) + 4g(7/2) + 2g(4) + 4g(9/2) + g(5)) a great resource for doing these calculations is here

= (1/6)(1 + 4*25.84 + 2*22.247 + 4*19.155 + 2*16.495 + 4*14.206 + 2*12.238 + 4*10.546 + 2*9.091 + 4*7.841 + 6.768)

= (1/6)(1 + 103.36 + 44.494 + 76.62 + 32.99 + 56.824 + 24.476 + 42.184 + 18.182 + 31.364 + 6.768)

= (1/6)(438.262)

= 73 degrees

which is very close to the number obtained using integral tables (77 degrees). The value will get closer as the number of iterations is increased, which can easily be done using a computer.