Asked by Alyssa
Find the area of the curve y = 1/(x^3) from x = 1 to x = t and evaluate it for t = 10, 100, and 1000. Then find the the total area under this curve for x ≥ 1.
I'm not sure how to do the last part of question ("find the the total area under this curve for x ≥ 1.")
For the area of the curve, I found that the integral from 1 to t is (1/2)-[1/(2t^2)].
I used the equation I found and substituted t for 10, 100, and 1000, and got 0.495, 0.49995, and 0.4999995 respectively.
I'm not sure how to do the last part of question ("find the the total area under this curve for x ≥ 1.")
For the area of the curve, I found that the integral from 1 to t is (1/2)-[1/(2t^2)].
I used the equation I found and substituted t for 10, 100, and 1000, and got 0.495, 0.49995, and 0.4999995 respectively.
Answers
Answered by
Reiny
area = LIM [integral]1/x^3 dx from x = 1 to x -- infin.
= lim (-(1/2)(1/x^2) from x=1 to x-- inf.
= lim{ -(1/2)/x^2 as x--inf} - lim {(-1/2)/x^2 as x=1
= 0 - (-1/2) = 1/2
= lim (-(1/2)(1/x^2) from x=1 to x-- inf.
= lim{ -(1/2)/x^2 as x--inf} - lim {(-1/2)/x^2 as x=1
= 0 - (-1/2) = 1/2
Answered by
Reiny
or
look at your expression of
1/2 - 1/(2t^2)
as t ---> infinity, doesn't 1/(2t^2) approach 0 ?
so you are left with 1/2 -0
= 1/2 , as your approximations suggested.
look at your expression of
1/2 - 1/(2t^2)
as t ---> infinity, doesn't 1/(2t^2) approach 0 ?
so you are left with 1/2 -0
= 1/2 , as your approximations suggested.
Answered by
Alyssa
Oh! I understand now. The "total area" part kind of threw me off.
Thank you so much!
Thank you so much!
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