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Here is the problem in italics: | Here is the problem in italics: | ||
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Explain why the error, E = | R_N - I |, satisfies | Explain why the error, E = | R_N - I |, satisfies | ||
− | E < M(b-a)^2/N. | + | E < M(b-a)^2/N. |
+ | </blockquote> | ||
So what does this equation "E < M(b-a)^2/N" mean. This reads that the error is less than the Maximum value of the derivative of the function of x multiplied by the interval squared from x=a to x=b all divided by the total number of subintervals N. | So what does this equation "E < M(b-a)^2/N" mean. This reads that the error is less than the Maximum value of the derivative of the function of x multiplied by the interval squared from x=a to x=b all divided by the total number of subintervals N. | ||
I don't understand why this must be true. Maybe I'm wrong, but if f(x) were a horizontal line, wouldn't E=0 and M(b-a)^2/N also be =0. That would mean it is a false statement that E < M(b-a)^2/N. Are we to assume that E <= M(b-a)^2/N? | I don't understand why this must be true. Maybe I'm wrong, but if f(x) were a horizontal line, wouldn't E=0 and M(b-a)^2/N also be =0. That would mean it is a false statement that E < M(b-a)^2/N. Are we to assume that E <= M(b-a)^2/N? | ||
+ | |||
+ | Chumbert: Yeah, he said in class today (Wed.) to assume that, right? | ||
==Interesting Articles about Calculus== | ==Interesting Articles about Calculus== |
Revision as of 17:24, 17 September 2008
Contents
Math 181 Honors Calculus
Getting started editing
Lecture Notes
Homework Help
Hello, this is gary from ma181. let's solve the extra credit problem. Here is the problem in italics:
Extra Credit Problem
Suppose that f(x) is continuously differentiable on the interval [a,b]. Let N be a positive integer and let M = Max { |f'(x)| : a <= x <= b }. Let h = (b-a)/N and let R_N denote the "right endpoint" Riemann Sum for the integral
I = int( f(x), x=a..b).
In other words,
R_N = sum( f(a + n*h)*h , n=1..N ).
Explain why the error, E = | R_N - I |, satisfies
E < M(b-a)^2/N.
So what does this equation "E < M(b-a)^2/N" mean. This reads that the error is less than the Maximum value of the derivative of the function of x multiplied by the interval squared from x=a to x=b all divided by the total number of subintervals N.
I don't understand why this must be true. Maybe I'm wrong, but if f(x) were a horizontal line, wouldn't E=0 and M(b-a)^2/N also be =0. That would mean it is a false statement that E < M(b-a)^2/N. Are we to assume that E <= M(b-a)^2/N?
Chumbert: Yeah, he said in class today (Wed.) to assume that, right?
Interesting Articles about Calculus
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