Euclid's puzzling parallel postulate - Jeff Dekofsky
-
0:15 - 0:17As any current or past
geometry student knows, -
0:17 - 0:19the father of geometry was Euclid,
-
0:19 - 0:23a Greek mathematician who lived
in Alexandria, Egypt, around 300 B.C.E. -
0:23 - 0:26Euclid is known as the author
of a singularly influential work -
0:26 - 0:27known as "Elements."
-
0:27 - 0:29You think your math book is long?
-
0:29 - 0:32Euclid's "Elements" is 13 volumes
full of just geometry. -
0:32 - 0:34In "Elements," Euclid structured
and supplemented the work -
0:34 - 0:36of many mathematicians
that came before him, -
0:36 - 0:39such as Pythagoras, Eudoxus,
Hippocrates and others. -
0:40 - 0:42Euclid laid it all out
as a logical system of proof -
0:42 - 0:44built up from a set of definitions,
-
0:44 - 0:47common notions,
and his five famous postulates. -
0:47 - 0:49Four of these postulates
are very simple and straightforward, -
0:49 - 0:51two points determine a line, for example.
-
0:51 - 0:54The fifth one, however,
is the seed that grows our story. -
0:54 - 0:58This fifth mysterious postulate
is known simply as the parallel postulate. -
0:58 - 1:00You see, unlike the first four,
-
1:00 - 1:02the fifth postulate is worded
in a very convoluted way. -
1:03 - 1:04Euclid's version states that,
-
1:04 - 1:06"If a line falls on two other lines
-
1:06 - 1:10so that the measure of the two interior
angles on the same side of the transversal -
1:10 - 1:11add up to less than two right angles,
-
1:11 - 1:14then the lines eventually
intersect on that side, -
1:14 - 1:15and therefore are not parallel."
-
1:15 - 1:17Wow, that is a mouthful!
-
1:17 - 1:19Here's the simpler, more familiar version:
-
1:19 - 1:21"In a plane, through any point
not on a given line, -
1:21 - 1:25only one new line can be drawn
that's parallel to the original one." -
1:25 - 1:29Many mathematicians over the centuries
tried to prove the parallel postulate -
1:29 - 1:31from the other four,
but weren't able to do so. -
1:31 - 1:34In the process, they began looking at
what would happen logically -
1:34 - 1:36if the fifth postulate
were actually not true. -
1:36 - 1:40Some of the greatest minds in the history
of mathematics ask this question, -
1:40 - 1:42people like Ibn al-Haytham, Omar Khayyam,
-
1:42 - 1:44Nasir al-Din al-Tusi, Giovanni Saccheri,
-
1:44 - 1:48János Bolyai, Carl Gauss,
and Nikolai Lobachevsky. -
1:48 - 1:51They all experimented
with negating the parallel postulate, -
1:51 - 1:55only to discover that this gave rise
to entire alternative geometries. -
1:55 - 1:58These geometries became collectively known
as non-Euclidean geometries. -
1:58 - 2:01We'll leave the details of these
different geometries for another lesson. -
2:01 - 2:04The main difference depends
on the curvature of the surface -
2:04 - 2:06upon which the lines are constructed.
-
2:06 - 2:09Turns out Euclid did not tell us
the entire story in "Elements," -
2:09 - 2:12and merely described one possible way
to look at the universe. -
2:12 - 2:15It all depends on the context
of what you're looking at. -
2:15 - 2:16Flat surfaces behave one way,
-
2:16 - 2:19while positively and negatively
curved surfaces -
2:19 - 2:20display very different characteristics.
-
2:20 - 2:23At first these alternative
geometries seemed strange, -
2:23 - 2:27but were soon found to be equally adept
at describing the world around us. -
2:27 - 2:29Navigating our planet
requires elliptical geometry -
2:29 - 2:32while the much of the art of M.C. Escher
displays hyperbolic geometry. -
2:32 - 2:35Albert Einstein used
non-Euclidean geometry as well -
2:35 - 2:38to describe how space-time
becomes warped in the presence of matter, -
2:38 - 2:41as part of his general
theory of relativity. -
2:41 - 2:43The big mystery is whether
Euclid had any inkling -
2:43 - 2:45of the existence
of these different geometries -
2:45 - 2:47when he wrote his postulate.
-
2:47 - 2:49We may never know,
-
2:49 - 2:52but it's hard to believe he had
no idea whatsoever of their nature, -
2:52 - 2:54being the great intellect that he was
-
2:54 - 2:56and understanding the field
as thoroughly as he did. -
2:56 - 2:59Maybe he did know and he wrote
the postulate in such a way -
2:59 - 3:02as to leave curious minds after him
to flush out the details. -
3:02 - 3:04If so, he's probably pleased.
-
3:04 - 3:06These discoveries
could never have been made -
3:06 - 3:07without gifted, progressive thinkers
-
3:07 - 3:10able to suspend their preconceived notions
-
3:10 - 3:12and think outside
of what they've been taught. -
3:12 - 3:15We, too, must be willing at times
to put aside our preconceived notions -
3:15 - 3:16and physical experiences
-
3:16 - 3:18and look at the larger picture,
-
3:18 - 3:20or we risk not seeing
the rest of the story.
- Title:
- Euclid's puzzling parallel postulate - Jeff Dekofsky
- Speaker:
- Jeff Dekofsky
- Description:
-
more » « less
View full lesson: http://ed.ted.com/lessons/euclid-s-puzzling-parallel-postulate-jeff-dekofsky
Euclid, known as the "Father of Geometry," developed several of modern geometry's most enduring theorems--but what can we make of his mysterious fifth postulate, the parallel postulate? Jeff Dekofsky shows us how mathematical minds have put the postulate to the test and led to larger questions of how we understand mathematical principles.
Lesson by Jeff Dekofsky, animation by The Leading Sheep Studios.
- Video Language:
- English
- Team:
closed TED
- Project:
- TED-Ed
- Duration:
- 03:37
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Krystian Aparta commented on English subtitles for Euclid's puzzling parallel postulate | |
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Krystian Aparta edited English subtitles for Euclid's puzzling parallel postulate | |
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Bedirhan Cinar approved English subtitles for Euclid's puzzling parallel postulate | |
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Bedirhan Cinar accepted English subtitles for Euclid's puzzling parallel postulate | |
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Andrea McDonough added a translation |
Krystian Aparta
The English transcript was updated on 2/17/2016. At 02:34, "to describe the way that space-time becomes work in the presence of matter" was changed to "to describe how space-time becomes warped in the presence of matter."