How high can you count on your fingers? (Spoiler: much higher than 10) - James Tanton
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0:07 - 0:11How high can you count on your fingers?
-
0:11 - 0:13It seems like a question
with an obvious answer. -
0:13 - 0:16After all, most of us have ten fingers,
-
0:16 - 0:17or to be more precise,
-
0:17 - 0:19eight fingers and two thumbs.
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0:19 - 0:23This gives us a total of ten digits
on our two hands, -
0:23 - 0:25which we use to count to ten.
-
0:25 - 0:29It's no coincidence that the ten symbols
we use in our modern numbering system -
0:29 - 0:31are called digits as well.
-
0:31 - 0:33But that's not the only way to count.
-
0:33 - 0:38In some places, it's customary to
go up to twelve on just one hand. -
0:38 - 0:39How?
-
0:39 - 0:42Well, each finger is divided
into three sections, -
0:42 - 0:47and we have a natural pointer
to indicate each one, the thumb. -
0:47 - 0:51That gives us an easy to way to count
to twelve on one hand. -
0:51 - 0:52And if we want to count higher,
-
0:52 - 0:58we can use the digits on our other hand to
keep track of each time we get to twelve, -
0:58 - 1:03up to five groups of twelve, or 60.
-
1:03 - 1:05Better yet, let's use the sections
on the second hand -
1:05 - 1:11to count twelve groups of twelve,
up to 144. -
1:11 - 1:13That's a pretty big improvement,
-
1:13 - 1:17but we can go higher by finding more
countable parts on each hand. -
1:17 - 1:21For example, each finger
has three sections and three creases -
1:21 - 1:24for a total of six things to count.
-
1:24 - 1:26Now we're up to 24 on each hand,
-
1:26 - 1:29and using our other hand to mark
groups of 24 -
1:29 - 1:32gets us all the way to 576.
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1:32 - 1:33Can we go any higher?
-
1:33 - 1:36It looks like we've reached the limit
of how many different finger parts -
1:36 - 1:39we can count with any precision.
-
1:39 - 1:41So let's think of something different.
-
1:41 - 1:43One of our greatest
mathematical inventions -
1:43 - 1:47is the system of positional notation,
-
1:47 - 1:51where the placement of symbols allows
for different magnitudes of value, -
1:51 - 1:53as in the number 999.
-
1:53 - 1:56Even though the same symbol is used
three times, -
1:56 - 2:00each position indicates a different
order of magnitude. -
2:00 - 2:06So we can use positional value on
our fingers to beat our previous record. -
2:06 - 2:08Let's forget about finger sections
for a moment -
2:08 - 2:12and look at the simplest case of having
just two options per finger, -
2:12 - 2:14up and down.
-
2:14 - 2:16This won't allow us to represent
powers of ten, -
2:16 - 2:20but it's perfect for the counting system
that uses powers of two, -
2:20 - 2:22otherwise known as binary.
-
2:22 - 2:26In binary, each position has double
the value of the previous one, -
2:26 - 2:29so we can assign
our fingers values of one, -
2:29 - 2:30two,
-
2:30 - 2:31four,
-
2:31 - 2:32eight,
-
2:32 - 2:34all the way up to 512.
-
2:34 - 2:37And any positive integer,
up to a certain limit, -
2:37 - 2:40can be expressed
as a sum of these numbers. -
2:40 - 2:44For example, the number seven
is 4+2+1. -
2:44 - 2:48so we can represent it by having
just these three fingers raised. -
2:48 - 2:56Meanwhile, 250 is 128+64+32+16+8+2.
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2:56 - 2:58How high an we go now?
-
2:58 - 3:03That would be the number with all ten
fingers raised, or 1,023. -
3:03 - 3:06Is it possible to go even higher?
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3:06 - 3:08It depends on how dexterous you feel.
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3:08 - 3:12If you can bend each finger just halfway,
that gives us three different states - -
3:12 - 3:13down,
-
3:13 - 3:14half bent,
-
3:14 - 3:16and raised.
-
3:16 - 3:20Now, we can count using
a base-three positional system, -
3:20 - 3:25up to 59,048.
-
3:25 - 3:29And if you can bend your fingers
into four different states or more, -
3:29 - 3:31you can get even higher.
-
3:31 - 3:36That limit is up to you,
and your own flexibility and ingenuity. -
3:36 - 3:39Even with our fingers in just two
possible states, -
3:39 - 3:41we're already working pretty efficiently.
-
3:41 - 3:45In fact, our computers are based
on the same principle. -
3:45 - 3:48Each microchip consists of tiny
electrical switches -
3:48 - 3:51that can be either on or off,
-
3:51 - 3:56meaning that base-two is the default way
they represent numbers. -
3:56 - 4:00And just as we can use this system to
count past 1,000 using only our fingers, -
4:00 - 4:03computers can perform billions
of operations -
4:03 - 4:07just by counting off 1's and 0's.
- Title:
- How high can you count on your fingers? (Spoiler: much higher than 10) - James Tanton
- Description:
-
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View full lesson: https://ed.ted.com/lessons/how-high-can-you-count-on-your-fingers-spoiler-much-higher-than-10-james-tanton
How high can you count on your fingers? It seems like a question with an obvious answer. After all, most of us have ten fingers -- or to be more precise, eight fingers and two thumbs. This gives us a total of ten digits on our two hands, which we use to count to ten. But is that really as high as we can go? James Tanton investigates.
Lesson by James Tanton, animation by TED-Ed.
- Video Language:
- English
- Team:
closed TED
- Project:
- TED-Ed
- Duration:
- 04:30
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Aviva Nassimi edited English subtitles for How high can you count on your fingers? (Spoiler: much higher than 10) - James Tanton | |
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Jessica Ruby edited English subtitles for How high can you count on your fingers? (Spoiler: much higher than 10) - James Tanton | |
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