Calculus question. Please complete and explain the following.

Question

asked Aug 16, 2020 218k views

1 Answer

Low Flying Pelican · Answer 1 · 2020-08-23T08:47:52+0000

We're approximating the area under the graph of the function
f(x)=x^3+8 over the interval [-2, 2] by

partitioning the integration interval into
subintervals,
building rectangles whose lengths are equal to the length of the corresponding subinterval and whose heights are equal to the value of
, where
denotes the right endpoint of the
-th subinterval, and
computing the areas of each rectangle and adding these areas together.

Splitting [-2, 2] into 4 intervals gives

[-2, -1], [-1, 0], [0, 1], [1, 2]

Each subinterval has length 1. The right endpoints of the
-th subinterval, where
$1\le i\le4$ , are given by the (arithmetic) sequence

r_i=-1+1(i-1)=i-2

The area of the rectangle over the
-th subinterval is

A_i=f(i-2)=(i-2)^3+8=i^3-6i^2+6i

and so the definite integral is approximately

$\displaystyle\int_(-2)^2(x^3+8)\,\mathrm dx\approx\sum_(i=1)^4(i^3-6i^2+6i)$

There are well-known formulas for computing the sums of powers of consecutive (positive) integers. The ones we care about are

$\displaystyle\sum_(i=1)^ni=\frac{n(n+1)}2$

$\displaystyle\sum_(i=1)^ni^2=\frac{n(n+1)(2n+1)}6$

$\displaystyle\sum_(i=1)^ni^3=\frac{n^2(n+1)^2}4$

So we get

$\displaystyle\int_(-2)^2(x^3+8)\,\mathrm dx\approx40$