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Introduction to Integrals with Riemann Sums 620 Views
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Description:
Riemann sums are a way to estimate the area under a curve. Check out the video for all the deets.
- MPAC 1 / Reasoning with definitions and theorems
- MPAC 2 / Connecting concepts
- MPAC 4 / Connecting multiple representations
- MPAC 5 / Building notational fluency
- MPAC 6 / Communicating
- MPAC 1 / Reasoning with definitions and theorems
- MPAC 2 / Connecting concepts
- MPAC 4 / Connecting multiple representations
- MPAC 5 / Building notational fluency
- MPAC 6 / Communicating
Transcript
- 00:05
Introduction to Integrals with Riemann Sums, a la Shmoop.
- 00:09
Tickets to see the Sun Bear and Angora Rabbit are selling out fast.
- 00:12
They don't do any tricks or anything. They're just hilarious to look at.
- 00:18
The ticket machine comes with a real-time ticket tracker that graphs the number of tickets
- 00:23
sold per hour throughout the day.
Full Transcript
- 00:25
At the end of the day, Mr. Robin... the Sun Bear and Angora Rabbit's best friend....
- 00:29
...wants to see how popular his friends were by calculating the total number of tickets
- 00:34
sold over 10 hours.
- 00:36
How can we solve for the total number of tickets sold?
- 00:39
Well, let's first take a look at this graph.
- 00:41
It's important to notice that our function is non-negative, which means the function
- 00:46
never outputs a negative y-value.
- 00:49
The y-axis shows the number of tickets sold per hour and the x-axis shows how much time
- 00:55
has passed since opening.
- 00:57
If we multiply y, the tickets sold over time, by x, or time, hours cancel out, so we get
- 01:03
the number of tickets sold at every interval.
- 01:05
This is the same as multiplying the y-value of a point on the curve by the relevant interval
- 01:11
on the x-axis.
- 01:13
If we add up all the intervals, we get the area under the curve.
- 01:15
So, to figure out how many tickets were sold in total, we just need to find the area under
- 01:20
the curve from x = 0 to x = 10.
- 01:23
Unfortunately, the curve is an irregular shape, which means we don't have a formula we can
- 01:29
use to find the exact area. What we can do instead is approximate the
- 01:34
area by drawing a series of rectangles that more or less cover the curve...
- 01:38
...and use the total areas of those rectangles as an estimate of the area under the curve.
- 01:43
There are several different ways we can draw these rectangles, but the most common way
- 01:47
is to put the top left corner of each rectangle directly on the curve.
- 01:53
This will produce a series of rectangles with equal width but varying height based on the
- 01:59
curve, and is called the Left-Hand Sum. For now, we can partition, or slice, the curve
- 02:05
into sub-intervals every two hours, giving us a total of five slices.
- 02:10
As you can see, some of the rectangles drawn underestimate and overestimate the area of
- 02:15
the curve... ...but they basically cancel each other out,
- 02:18
so it gives us a pretty good estimation of the area under the curve.
- 02:23
When finding a left-hand sum, we need to know the value of the function at the left endpoint
- 02:28
of each sub-interval.
- 02:30
Let's look at the first sub-interval between hours 0 and 2 and calculate the area of the
- 02:36
rectangle.
- 02:37
We can see that the left endpoint of the sub-interval is 10.
- 02:41
We know from the good ol' Pre-Algebra days that the area of a rectangle is base times
- 02:46
height.
- 02:46
So we can calculate the area of a rectangle at the first sub-interval by multiplying the
- 02:52
base, or 2, by the height, ten...
- 02:54
...to get 20 as the area of the rectangle. For the second interval, the height is 12,
- 03:01
so the area of the rectangle is two times 12, or 24.
- 03:05
For the third interval, the height is 17, so the area is two times 17, or 34.
- 03:10
The fourth interval has height 23, so the area is two times 23, or 46.
- 03:14
The last interval has height 22, so the area is 2 times 22, or 44.
- 03:21
Adding these up, we find that the total area is approximately 20 plus 24 plus 34 plus 46
- 03:27
plus 44, or 168.
- 03:31
But for people like Mr. Robin, an approximation isn't good enough.
- 03:35
Even if the overestimations and underestimations roughly cancel each other out, the approximation
- 03:40
still isn't exact.
- 03:41
But the more sub-intervals we have, the more accurate our approximation would be.
- 03:48
Suppose we wanted to generalize the width of our subintervals with a formula.
- 03:56
We can label our width with delta x. Since we're dividing the interval... a, b...into...n...equal
- 04:04
sub-intervals, each sub-interval will have length: b minus a over n.
- 04:09
So delta x equals b minus a over n.
- 04:12
The area of a rectangle is length times width.
- 04:15
The length of every rectangle is the height of the curve at each left endpoint...
- 04:19
...so the area can be written as f of x, the length, times delta x, the width.
- 04:26
To find the total area, we can just find the sum of the areas of all the rectangles.
- 04:31
Another way to write this is in sigma notation.
- 04:34
Notice that we are finding the summation of the area of each rectangle, represented by
- 04:38
the formula we calculated earlier.
- 04:41
This form is called a Riemann sum.
- 04:44
Remember how we said that the approximation got more precise with more subintervals?
- 04:50
Let's take this to the extreme and see if we can go from more and more intervals to
- 04:55
an infinite number of intervals. We can take the limit of our Riemann sum as
- 04:59
n approaches infinity, giving us an infinite number of slices.
- 05:04
This will give us an exact approximation of the area under the curve.
- 05:14
Taking this limit as n approaches infinity, gives us a total area of 168.53É
- 05:19
...which is SUPER close if you compare it to the approximation found with rectangles.
- 05:26
Looks like Mr. Robin's friends are pretty popular...with 168 total tickets sold!
- 05:30
Impressive... especially considering that huge Ticketmaster markup.
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