The First Scientist: Anaximander and his legacy

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In summary, the book discusses a student of Thales, Anaximander, and his theory of the Earth being a cylindrical drum with the Mediterranean forming a puddle at its center.
  • #1
marcus
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A new book in the history of science.
https://www.amazon.com/dp/1594161313/?tag=pfamazon01-20

Delving into the first glimpses of physical law. The idea that nature and experience could be explained by (semi-quantitative) laws instead of by myths and gods.
What is the root of scientific explanation? How did the idea of it arise?

The history is developed by focusing on a person, a student of Thales, in the Ionian city of Miletus, and the events surrounding his life circa 610-546 BC.

Humanity took a significant step forward around that time, I think
The book is scheduled to go on sale in May 2011, so just a couple of months.
 
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  • #2
That sounds intersting, thanks Marcus!
 
  • #3
Evo, I know very little about Anaximander but I did hear something amusing.

Apparently he knew the Earth was spherical, so then the question everybody asks is "what holds it up?"

This is hearsay, I should check it, but anyway other people thought up explanations like it was held up by a Giant, or by Turtles, or floated on the surface of an infinite ocean.

But apparently Anaximander thought a little more deeply and said: Yes the round Earth is situated in the midst of empty space but it does not fall...because there is no preferred direction for it to fall in!

That is, he used a symmetry argument to show that there is no need for the Earth to be suspended from anything or supported on any base.

Much of contemporary physics is saying that things are the way they are because of symmetries of various sorts. So in that way the reasoning of the physicists is anaximandral.

He didn't have the idea of an (algebraic) equation---but much of physics as we know it involves balance, equilibrium, opposing forces, resolution achieved by the equals sign. He didn't have that, but instead the equation he used the idea of Justice. Different opposing principles resolved by Justice. Just like a Greek.

And so he made up Laws, instead of Turtles and Giants.

Cute old guy. One could get to like Anaximander, I guess.

I have started to wish that I could go to Miletus, that city on the coast of Turkey that was once a city of the Ionians. I imagine looking out from Miletus, onto the Aegean, and I imaging there are islands visible out to sea. I actually don't know whether there really are islands in sight from Miletus.
 
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  • #4
marcus said:
That is, he used a symmetry argument to show that there is no need for the Earth to be suspended from anything or supported on any base.

Anaximander most likely proposed that the Earth was drum shaped, a squat cylinder, rather than a sphere. The other side being of course the Antipodes. And following the view of his time, the surface of the drum was perhaps a little concave so that the Mediterranean formed a puddle at its centre.

Yet it is true that Anaximander used the principle of indifference to explain why the Earth could just hang at the centre of its world. He also believed many others worlds would exist, generated from the unbounded apeiron.

But it would be a shame for Anaximander to be remembered for just a simple bit of cosmology and his real significance overlooked. He had a theory of causality as a complex process of development - of symmetry-breaking, indeed - that was far more important.

I wonder if Rovelli will have cottoned on to this? Probably not as it sounds as though he wants to assimilate Anaximander to the "modern scientific tradition" - the rival view of causality drawn up by the Greek atomists.
 
  • #5
apeiron said:
Anaximander most likely proposed that the Earth was drum shaped, a squat cylinder, rather than a sphere. The other side being of course the Antipodes. And following the view of his time, the surface of the drum was perhaps a little concave so that the Mediterranean formed a puddle at its centre.

Yet it is true that Anaximander used the principle of indifference to explain why the Earth could just hang at the centre of its world. He also believed many others worlds would exist, generated from the unbounded apeiron.

But it would be a shame for Anaximander to be remembered for just a simple bit of cosmology and his real significance overlooked. He had a theory of causality as a complex process of development - of symmetry-breaking, indeed - that was far more important.

I wonder if Rovelli will have cottoned on to this? Probably not as it sounds as though he wants to assimilate Anaximander to the "modern scientific tradition" - the rival view of causality drawn up by the Greek atomists.

I'm not sure everything has been translated correctly? My understanding (from time spent in Greece) was that Anaximander described the Earth as cylindrical (as you've described) but an unbounded Apeiron as having sperical properties? All I could find was this (2 Articles):

http://www.google.com/imgres?imgurl...US404US404&tbs=isch:1&ei=hhGSTY2FIYW_gQekzowa

I look forward to the book - good find marcus!
 
  • #6
WhoWee said:
but an unbounded Apeiron as having sperical properties? All I could find was this (2 Articles):

What are "sperical properties"?

But surely you had no trouble googling apeiron (1.28 million hits)? What are you trying to say here?

http://en.wikipedia.org/wiki/Apeiron_(cosmology [Broken])
 
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  • #7
apeiron said:
What are "sperical properties"?

But surely you had no trouble googling apeiron (1.28 million hits)? What are you trying to say here?

http://en.wikipedia.org/wiki/Apeiron_(cosmology [Broken])

I remember the Greeks speaking of "Apeiron" meaning all surrounding and round or all around(?) - again, I lost a lot in the translations (and over 20 years ago).

(that should have been spherical - not sperical)
 
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  • #8
WhoWee said:
I remember the Greeks speaking of "Apeiron" meaning all surrounding and round or all around(?) - again, I lost a lot in the translations (and over 20 years ago).

(that should have been spherical - not sperical)

This is a little closer to the stories I recall from the Plaka: my bold

http://www.enotes.com/topic/Apeiron_(cosmology)

"The apeiron has generally been understood as a sort of primal chaos. It acts as the substratum supporting opposites such as hot and cold, wet and dry, and directed the movement of things, by which there grew up all of the host of shapes and differences which are found in the world.[21] Out of the vague and limitless body there sprang a central mass — this Earth of ours — cylindrical in shape. A sphere of fire surrounded the air around the Earth and had originally clung to it like the bark round a tree. When it broke, it created the sun, the moon and the stars.[22] The first animals were generated in the water.[23] When they came to Earth they were transmuted by the effect of the sun. The human being sprung from some other animal, which originally was similar to a fish.[24] The blazing orbs, which have drawn off from the cold Earth and water, are the temporary gods of the world clustering around the earth, which to the ancient thinker is the central figure."
 
  • #9
WhoWee said:
This is a little closer to the stories I recall from the Plaka: my bold

http://www.enotes.com/topic/Apeiron_(cosmology)

Your link does not seem to work unfortunately.

I would say that it is wrong to focus too much on the quaint archaic cosmological thinking, the spheres of fire and fish hatching from mudballs, as it was Anaximander's underlying causal model that was deep and still relevant.

Anaximander told a story about development by dichotomisation. A symmetry breaking of states of potential.

So it was a really deep view of symmetry principles, not just a simple understanding about spherical symmetry for instance.

Of course, this was also pretty much the causal model of the Theogony. So Anaximander did not invent it outright. He just stripped away the gods and dealt in pure abstractions.
 
  • #10
marcus said:
I have started to wish that I could go to Miletus, that city on the coast of Turkey that was once a city of the Ionians. I imagine looking out from Miletus, onto the Aegean, and I imaging there are islands visible out to sea. I actually don't know whether there really are islands in sight from Miletus.

I don’t know what would be visible from Miletus, but this shows Turkey in the background from Posidonio beach, Samos Island, which I think might be near.


2h5mv5e.jpg



2ag4406.jpg



http://www.posidonio.samos-travel.com/

It looks inspirational, as does the book.
 
  • #11
marcus said:
...
I have started to wish that I could go to Miletus, that city on the coast of Turkey that was once a city of the Ionians. I imagine looking out from Miletus, onto the Aegean, and I imaging there are islands visible out to sea. I actually don't know whether there really are islands in sight from Miletus.

Hi fuzzyfelt, apeiron, whowee...
Nice pictures!

It turns out that because of silting (or some reason) the shoreline has changed and Miletus is now INLAND. It is no longer on the coast. Maybe I was the only one who didn't know that.

There still are some Ionian greek ruins there.

The book "The First Scientist" is scheduled to go on sale 25 May, a little over a week now!

Éditions Dunod published the French version in 2009. It won a French prize for non-fiction: the Prix du Livre Haute Maurienne de l’Astronomie.

Here is the publisher's page for the 2009 French edition:
http://www.dunod.com/sciences-techn...ciences-de-la-matiere-et-/anaximandre-de-mile

Here is the book's Amazon.fr page:
http://www.amazon.com/dp/2100529390/?tag=pfamazon01-20

The publisher of the English version (Westholme) doesn't seem to be giving much advanced publicity. Here are the Amazon listings for Usa, Canada, UK:

https://www.amazon.com/dp/1594161313/?tag=pfamazon01-20
http://www.amazon.com/dp/1594161313/?tag=pfamazon01-20
http://www.amazon.com/dp/1594161313/?tag=pfamazon01-20

Some promotional material (provided by Westholme) reflects critical acclaim received by the 2009 French edition of the book:

==quote http://www.westholmepublishing.com/thefirstscientist.html ==

Carlo Rovelli, a leading theoretical physicist, uses the figure of Anaximander as the starting point for an examination of scientific thinking itself: its limits, its strengths, its benefits to humankind, and its controversial relationship with religion. Anaximander, the sixth-century BC Greek philosopher, is often called the first scientist because he was the first to suggest that order in the world was due to natural forces, not supernatural ones. He is the first person known to understand that the Earth floats in space; to believe that the sun, the moon, and the stars rotate around it—seven centuries before Ptolemy; to argue that all animals came from the sea and evolved; and to posit that universal laws control all change in the world. Anaximander taught Pythagoras, who would build on Anaximander’s scientific theories by applying mathematical laws to natural phenomena.

In the award-winning The First Scientist: Anaximander and His Legacy, translated here for the first time in English, Rovelli restores Anaximander to his place in the history of science by carefully reconstructing his theories from what is known to us and examining them in their historical and philosophical contexts. Rovelli demonstrates that Anaximander’s discoveries and theories were decisive influences, putting Western culture on its path toward a scientific revolution. Developing this connection, Rovelli redefines science as a continuous redrawing of our conceptual image of the world. He concludes that scientific thinking—the legacy of Anaximander—is only reliable when it constantly tests the limits of our current knowledge. Praise for the French edition (Éditions Dunod, 2009)...

==endquote==

The publisher also has a kind of sound-bite from Lee Smolin:

"At this point in time, when the prestige of science is at a low and even simple issues like climate change are mired in controversy, Carlo Rovelli gives us a necessary reflection on what science is, and where it comes from. Rovelli is a deeply original thinker, so it is not surprising that he has novel views on the important questions of the nature and origin of science.”—Lee Smolin, founding member and researcher at the Perimeter Institute for Theoretical Physics and author of The Trouble with Physics
 
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  • #12
I checked French Amazon today and Anaximander was doing OK. The book ranked 30,383 amongst all books sold. For a book by a non-celeb physicist about a 6th century Ionian...well maybe it deserves better but it's not so bad.

Does the book have a chance in the US market? The publisher Westholme is small and not mainstream. The French publisher was Dunod, which is more central to the industry, and the book won a prestige prize for science popularization. What will happen in Usa?

I decided to transcribe (maybe later translate) one of the French Amazon comments.
The title is "The logic of scientific discovery--made easy."

==quote==
5.0 étoiles sur 5
La logique de la découverte scientifique ... en plus facile
Par Jean-paul Lacharme (Marseille, France), 19 septembre 2009

L'intérêt de ce livre tient d'abord à la personnalité de son auteur: un chercheur en physique, (spécialiste de la gravitation quantique, l'une des matière les moins accessibles pour le citoyen lambda) possédant cependant une bonne connaissance en culture gréco-latine. La chose n'est pas si courante dans ce milieu. Le sujet, Anaximandre de Milet n'est pas très connu car il ne reste plus grand chose de ce qu'il a écrit. C'est toutefois un auteur important car pour la première fois dans l'histoire, un penseur essaye d'expliquer le fonctionnement du monde par des lois immanentes et non par l'intervention des dieux. Ici, Rovelli nous montre simplement comment la connaissance scientifique s'est déployée en occident et pourquoi elle n'a pas connu un même épanouissement dans d'autres grandes civilisations comme celle de la Chine. Ça ne vaut pas Karl Popper ou Max Weber, bien sûr, mais c'est plus accessible, et c'est le point de vue d'un scientifique de base. Un regret : les nombreuses références bibliographiques données en annexe sont souvent non-françaises, ce qui leur ôte beaucoup d'intérêt pour un lecteur strictement francophone.
==endquote==
 
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  • #13
The initial publication date was not met, as often happens, but I've learned that the book is definitely in the works and will soon be out.

My understanding is it will be about 200 pages (some of that TOC, biblio, index) and written for a wide audience. Short and sweet in other words, bringing the humanities viewpoint and scientist viewpoint together with interesting personalities, stories, historical detail, and quotes from ancient writings...

I think it will be the kind of thin book that can sometimes help change our outlook, because asking who was the first scientist can serve as a concrete way of asking "what, really, is science?" and of exploring how those habits of mind and community peculiar to it arise and are sometimes nourished, sometimes repressed.

Links:
US publisher Westholme's page for forthcoming English edition
http://www.westholmepublishing.com/thefirstscientist.html
Amazon pages
https://www.amazon.com/dp/1594161313/?tag=pfamazon01-20
http://www.amazon.com/dp/1594161313/?tag=pfamazon01-20
http://www.amazon.com/dp/1594161313/?tag=pfamazon01-20

French publisher's page for the 2009 edition
http://www.dunod.com/sciences-techn...ciences-de-la-matiere-et-/anaximandre-de-mile
Amazon.fr page
http://www.amazon.com/dp/2100529390/?tag=pfamazon01-20
 
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  • #14
The new publication date is August 11, 2011. I feel fairly sure that they will make this one.
We can tell a fair amount about the book from information already available here:
French publisher's page for the 2009 edition
http://www.dunod.com/sciences-techn...ciences-de-la-matiere-et-/anaximandre-de-mile
about the French edition. Here is the French TOC:

Sommaire Introduction.

1. Le VIe siècle.
Un panorama du monde.
Le savoir du VIe siècle : l’astronomie.
Les dieux.
Milet.

2. Les contributions d’Anaximandre.

3. Les phénomènes atmosphériques.
Le naturalisme cosmologique et biologique.

4. Flotte la Terre.

5. Entités invisibles et lois naturelles.
Y a-t-il dans la nature quelque chose que nous ne voyons pas?
L’idée de loi naturelle : Anaximandre, Pythagore et Platon.

6. Quand la révolte devient vertu.

7. Écriture, démocratie et mélange des cultures.
La Grèce archaïque
L’alphabet grec.
Science et démocratie.
Le mélange des cultures.

8. Qu’est-ce que la science?
Penser Anaximandre après Einstein et Heisenberg.
L’effondrement des illusions du XIXème siècle.
La science ne se réduit pas à des prédictions vérifiables.
Explorer les formes de pensée du monde.
L’évolution de l’image du monde.
Règles du jeu et commensurabilité.
Éloge de l’incertitude.

9. Entre relativisme culturel et pensée de l’absolu.

10. Peut-on comprendre le monde sans les dieux?
Le conflit.

13. La pensée pré-scientifique.
La nature de la pensée mystico-religieuse. Les différentes fonctions du divin.

14. Conclusion : l’héritage d’Anaximandre

Don't put too much weight on this. This is just the TOC of the French version which has been out since 2009. It would be natural for changes, revisions, additions to occur, that appear first in the English edition.
 
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  • #15
marcus said:
I think it will be the kind of thin book that can sometimes help change our outlook, because asking who was the first scientist can serve as a concrete way of asking "what, really, is science?" and of exploring how those habits of mind and community peculiar to it arise and are sometimes nourished, sometimes repressed.

Thanks for pasting the contents page.

I would say that unfortunately a proper understanding of Anaximander's philosophy would indeed be outlook-changing for most, but Rovelli's book looks like it is going to be about something else. He will be celebrating Anaximander for his intellectual method...but ignoring the metaphysical results. :frown:

Hopefully I will be proved wrong, but the pre-publicity suggests otherwise.
 
  • #16
Thank you for the updates Marcus!
 
  • #17
While we wait for Rovelli, this paper by Arran Gare is a useful backgrounder on how Anaximander was the original process philosopher (taking a unified systems view of nature) and then thinking went either towards a simpler substance ontology (standard issue atomism/reductionism) or Platonic dualism.

www.concrescence.org/index.php/ajpt/article/download/85/47
 
  • #18
Apeiron, Whowee, you are both most welcome!
Here is an online intro to Anaximander from Dirk Couprie a guy in the Netherlands who I think does history of science/philosophy and is something of an expert in this area
http://www.iep.utm.edu/anaximan/

apeiron said:
He will be celebrating Anaximander for his intellectual method...but ignoring the metaphysical results. :frown:
...
Apeiron I think you are right---likely more emphasis on innovation of method and the remarkable scientific insights arising therefrom.

But don't you think that raising interest in Ionian Sixth Century BCE will make it more likely that we will see more written about A. including his metaphysics? Also the scientific concepts are they not aspects of the metaphysics? Do they not play a role?
For example in Chapter 5, the French edition discusses the idea of a natural substance which we do not see. A substance X. Which we infer by reason to exist and use to explain phenomena that we do see. Somewhat like quarks, which we believe exist but cannot isolate.
It seems that Thales, the teacher of Anaximander, proposed that the world was made of Water, or that it arose from the principal of Water. Anaximander took the original step of criticising his teacher's doctrine (which was not the custom in those days) and reasoning that Water was unsatisfactory and a fundamental principal/substance. He instead proposed a Substance X. An unknown indefinite something.

I think the Ionian Sixth is an amazing period, like the Italian Renaissance. The more written about it the better, and the more I read about it the more remarkable I find it.

It seems to reveal the beginnings of both critical philosophy on the one hand
and naturalistic science on the other.

You evidently know considerably more about A's thought than I. I like it that he managed to figure out that the sun's heat drives the water cycle, i.e. where rain comes from, and proposed a natural cause for thunder. He argued that all land animals (including humans) developed from sea life, and that the earth floats in emptiness so that the stars can pass beneath it. It does not rest on turtles or elephants, in other words.
=================

Since he was born ca. 610 BCE, Anax could have met Sappho ( b. circa 620 BCE ) she was only a few years older. and the young Pythagoras (b. ca. 570 BCE) could well have come to Miletus to visit with him. These remarkable people lived on nearby islands---close to Anax in space and time.
 
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  • #19
marcus said:
For example in Chapter 5, the French edition discusses the idea of a natural substance which we do not see. A substance X. Which we infer by reason to exist and use to explain phenomena that we do see. Somewhat like quarks, which we believe exist but cannot isolate.

What would be great is if Rovelli twigs that Anaximander had the original background independent model of the universe. :smile:

The apeiron was not really a substance but a pre-substance state. Other philosophers talked about air, water, etc, but Anaximander was doing his best to get away from anything concrete or essential at all. So this "stuff" was not a substance but instead just an unbounded potential, a vagueness.

So just as we are trying to do today with LQG for instance, Anaximander was trying to imagine a cosmos boot-strapping out of simple possibility.

Yes, everyone talks as though Anaximander just had a different kind of substance in mind. But he in fact went beyond the creation of substantial being.
 
  • #20
I really like this post. There is a lot of truth to it. The Undefinedness of the Apeiron "primal principle" is remarkably close in spirit to the Background Independence first realized in a universe model by Einstein in 1915 General Rel. General Relativity has no prior geometry that it is built on.

In GR, the geometry comes into existence in dynamic interaction with matter in motion.
The geometry, represented by a distance relation or "metric" defined at each point of an otherwise formless set of points, is a solution to the equation, not a fixed premise. There is no "background" metric fixed ahead of time.

So there is a formlessness that indeed is reminding us of the apeiron of Anax'er. A geometric backgroundlessness.

This is an intriguing post. I was reluctant to cover it up with my own post, so I just did not say anything for a few days.
apeiron said:
What would be great is if Rovelli twigs that Anaximander had the original background independent model of the universe. :smile:

The apeiron was not really a substance but a pre-substance state. Other philosophers talked about air, water, etc, but Anaximander was doing his best to get away from anything concrete or essential at all. So this "stuff" was not a substance but instead just an unbounded potential, a vagueness.

So just as we are trying to do today with LQG for instance, Anaximander was trying to imagine a cosmos boot-strapping out of simple possibility.

Yes, everyone talks as though Anaximander just had a different kind of substance in mind. But he in fact went beyond the creation of substantial being.

I too wonder what Rovelli would say if he saw this. (Since he writes about both background independent quantum gravity and about Anax'er.)
 
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  • #21
For anyone coming new to the thread here are some links to information.

US publisher Westholme's page for forthcoming English edition
http://www.westholmepublishing.com/thefirstscientist.html
Amazon pages
https://www.amazon.com/dp/1594161313/?tag=pfamazon01-20
http://www.amazon.com/dp/1594161313/?tag=pfamazon01-20
http://www.amazon.com/dp/1594161313/?tag=pfamazon01-20

French publisher's page for the 2009 edition
http://www.dunod.com/sciences-techn...ciences-de-la-matiere-et-/anaximandre-de-mile
Amazon.fr page
http://www.amazon.com/dp/2100529390/?tag=pfamazon01-20

Since the French version has already come out, we can tell a fair amount about the book by translating the French TOC:
ROUGH INTERPRETIVE TRANSLATION
Sommaire Introduction.

1. Le VIe siècle.==The Sixth Century BCE
Un panorama du monde.
Le savoir du VIe siècle : l’astronomie.==Science in the Sixth Century: Astronomy
Les dieux.==The Gods
Milet.==The City of Miletus

2. Les contributions d’Anaximandre. ==Anaximander's Contributions

3. Les phénomènes atmosphériques.==Meteorology (Understanding rain, thunder,..)
Le naturalisme cosmologique et biologique.==Naturalism in Cosmology and Biology

4. Flotte la Terre.==The Earth Floats in Space

5. Entités invisibles et lois naturelles.==Invisible Entities and Natural Laws
Y a-t-il dans la nature quelque chose que nous ne voyons pas?==Can Unseen Stuff Help Explain?
L’idée de loi naturelle : Anaximandre, Pythagore et Platon.==The Idea of Natural Law (Originated with Anax. Pyth. Plato)

6. Quand la révolte devient vertu.==(Rational) Revolt Becomes Respectable

7. Écriture, démocratie et mélange des cultures.==Writing, Democracy, Crossfertilization
La Grèce archaïque
L’alphabet grec.
Science et démocratie.==Science and Democracy (Are Related)
Le mélange des cultures.==Cultural Mixing

8. Qu’est-ce que la science?==What Characterizes Science?
Penser Anaximandre après Einstein et Heisenberg.==Significance of Anax'der's Thought Seen Post-GR and QM, i.e. from Post-Einstein-Heisenberg Perspective (!)
L’effondrement des illusions du XIXème siècle.==Collapse of 19-th Century Illusions(!)
La science ne se réduit pas à des prédictions vérifiables.==Real Science Can Not Be Reduced To Testable Predictions (!)
Explorer les formes de pensée du monde.==Exploring How to Think the World
L’évolution de l’image du monde.==Getting a New Picture of the World
Règles du jeu et commensurabilité.==Rules of Play--Continuity of Understanding
Éloge de l’incertitude.==Best Understanding Recognizes Uncertainty

9. Entre relativisme culturel et pensée de l’absolu. Navigating Between Cultural Relativism and the Absolute-Avoiding Dangerous Foolishness on Either Side.

10. Peut-on comprendre le monde sans les dieux?==Can We Get Along Without Gods?
Le conflit.

13. La pensée pré-scientifique.==Pre-Scientific Thought
La nature de la pensée mystico-religieuse. Les différentes fonctions du divin.

14. Conclusion : l’héritage d’Anaximandre==Anaximander's Legacy to Us

This is just the TOC of the French version which has been out since 2009. It would be natural for changes, revisions, additions to occur, that could appear first in the English edition.
I see the English edition publisher says the book is 256 pages. For a rough guess about material being added one can compare with the French edition, which is listed as 192 pages. Some of the difference could be due to other factors such as typesize.
 
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  • #22
Some of my own thoughts about Anaximander and his legacy

Apeiron has already indicated some of what he thinks is important to know about Anax'der.

I will tell some of my own reflections on him. For me Anax'der's realization that the the Earth floats in space---that space and stars are in all directions and that there is no special "UP" direction---is something I feel close to when I see the half moon in the sky.

The half moon allowed someone who came after Anax to deduce by geometric reasoning that the sun is 18 or 20 times farther than the moon.

Because Anax made a geometric model of the Earth Moon Sun system which embodied a certain ad hoc wrong ratio = 3/2. The Sun was farther than the Moon by a factor of 3/2. So that was wrong but it opened up the question. Could you get a better handle on that ratio?

Only 300 years after Anaximander, someone did.
http://en.wikipedia.org/wiki/Aristarchus_of_Samos
The article suggests that the figure of 18-20 may have been a lower bound. It's not entirely clear. The main thing is he got a handle on the problem, and improved on Anaximander's value for the ratio of distances, and he used geometry to do it.
Here's another article, with diagrams:
http://en.wikipedia.org/wiki/Aristarchus_On_the_Sizes_and_Distances

So when I see the half moon in the sky I think of those guys. Anaximander born 610 BCE Miletus and Aristarchus born 310 BCE on Samos, a nearby island.
 
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  • #23
This is part of the Heritage, the Legacy. I want to share this with whoever could get a kick out of it.

Imagine you can measure the angle between the moon and sun fairly accurately at a time when there is a half moon in the sky.
Say you are looking south and the half moon is near the mid-sky line and the sun is near setting.
Then there is a big triangle with a right angle at the moon (because you see it as a half moon.)

Say you measure the angle between them as 80 degrees. He did it more accurately---this will be very quick and dirty. You can draw a right triangle with the two angles 80 degrees and 10 degrees. 10 degrees is about 1/6 ratidan, so you can estimate that the distance to the sun is some 6 times bigger than the distance to moon.

Not to pretend to be too accurate, if you can determine that the angle seen at Earth is AT LEAST 85 degrees then you can decide that the angle seen at sun is LESS or equal 5 degrees which is less or equal 1/12 radian. So distance to sun is AT LEAST 12 TIMES the moon distance.

So that is already better than Anaximander! He had the ratio something like 3/2!

The thing is Anax opened the question and led the way with a geometric model. So you were going to apply geometry. And he made it fashionable to improve on your teacher because he did that with his teacher Thales. Critical (if respectful) attitude to authority.
And he even put out some low-hanging ready to pick fruit----this 3/2 number. Once there is a number, people like Aristarchus are going to feel challenged to improve on it.

Don't worry about sines and cosines right now. When you get down to angles smaller than 10 degrees the ratio of sides is roughly the same as the ratio of angles.

And Aristarchus did better than 80 degrees, he thought the spread between moon and sun was OVER 85 DEGREES. Actually, we are told, 87 degrees (hard to imagine him measuring so fine as that though.)

Next time I see the half moon I might think of it as "Anaximander moon". Even though the first person to use the half moon to get a handle on the proportions of the universe was someone who came 300 years after.

Anaximander started the ball rolling as regards both geometric models of the universe (with no up, down, or elephants) and applying critical reason to assess and improve on one's antecedents. Once the ball was rolling you could say that one day Aristarchus would have to come along and invent the heliocentric universe and the rest is history. :-D Well that's one way to look at it.
 
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  • #24
EDITED VERSION OF PREVIOUS POST.
(Needed editing but I ran out of time)
This is part of the Heritage, the Legacy. I want to share this with whoever could get a kick out of it.

Imagine you can measure the angle between the moon and sun fairly accurately at a time when there is a half moon in the sky. Say you are facing south and you see the half moon is high to the south and the sun near setting. Then there is a big triangle EMS with a right angle at the moon (because you see it as a half moon.)

Then say you measure the angle between them as 80 degrees. He did it more accurately---this will be quick and dirty. You can draw a right triangle with the right angle at the moon, 80 degrees at earth, 10 degrees at sun. 10 degrees is about 1/6 radian, so you can estimate EM/ES = 1/6

Distance to the sun is some 6 times bigger than the distance to moon.

Not to pretend to be too accurate, if you can determine that the angle seen at Earth is AT LEAST 85 degrees then you can decide that the angle seen at sun is LESS or equal 5 degrees which is less or equal 1/12 radian. So distance to sun is AT LEAST 12 TIMES the moon distance.

So that is already better than Anaximander! He had the ratio be only something like 3/2!

The thing is Anax opened the question and led the way with a geometric model. So you were mentally prepared to apply geometry to the heavens. And he made it fashionable to improve on your teacher because he did that with his teacher Thales. Critical (if respectful) attitude to authority.
And he even put out some low-hanging ready-to-pick fruit----this 3/2 number. Once there is a number, people like Aristarchus are going to feel challenged to improve on it.

Getting down to a little bit more detail (only if you want to), Aristarchus thought that in that triangle the angle seen at the sun was "one thirtieth of a quadrant". He did not use degrees, he measured by fractions of a quadrant (another name for right angle). A thirtieth of a quadrant is one twentieth of a "sextant". A sextant (i.e. 60 degrees) is quite close to the angle that today we call a radian. Using what you know about the sine of small angles, 1/20 = EM/MS and MS is so close to ES that one can put 1/20 = EM/ES. So the sun is 20 times the distance to the moon. In reality it is considerably farther, but this is all just approximate anyway. It's got to be pretty good for 3rd Century BCE!

Next time I see the half moon I might think of it as "Anaximander moon". Even though the first person to use the half moon to get a handle on the proportions of the universe was someone who came 300 years later.

Anaximander started the ball rolling as regards both geometric models of the universe (with no up, down, or elephants) and applying critical reason to assess and improve on one's antecedents. Once the ball was rolling you could say that one day Aristarchus would have to come along and invent the heliocentric universe and the rest is history. :-D Well that's one way to look at it.

Reality is what we keep learning about.

What keeps surprising us no matter how accurately we have modeled it.
 
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  • #25
Thank you, I know I'm going to enjoy reading this thread more thoroughly!

(I'd read Miletus was at the mouth of a river, which it isn't anymore.)
 
  • #26
September release date on the publsher's page:
http://www.westholmepublishing.com/thefirstscientist.html [Broken]
 
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  • #27
Anaximander got the ball rolling in cosmic models, by conceiving of the Earth as unsupported in space, with the stars, moon, and sun going around at different distances.
His was the ancestor of the Ptolemaic, and eventually Copernican, world models.

but his numbers, his ratios of distances, were wrong. He had the sun only 3/2 farther than the moon.

How could a person back then have determined the ratio better?
This author has imagined a method that someone in classical times could have used:
http://arxiv.org/abs/1107.0836
http://arxiv.org/abs/1107.0836

Aristarchus, born 300 years after Anax, in 310 BCE, had a method involving measuring the angle between the halfmoon and the sun. He got that the sun was at least 12 times farther, if I remember right. His way is not as good as this modern guy's (which in theory Aristarchus might have used if he had thought of it.)

If I had to choose, I like Aristarchus method. I understand it better. However, other people may find the alternative interesting.
 
  • #28
This map shows how the Miletus harbor used to look in classical times.

Samos, where Pythagoras lived, was just a short way out to sea, from the bay and harbor.

A river called MEANDER flowed into the bay near the city. The river had lots of S-curves. We get our word "meander" from it. It means to do like the Meander river did,

The map shows how the river silted in and what was Miletus harbor became dry land.
http://en.wikipedia.org/wiki/File:Miletus_Bay_silting_evolution_map-en.svg
 
  • #29
marcus said:
This map shows how the Miletus harbor used to look in classical times.

Samos, where Pythagoras lived, was just a short way out to sea, from the bay and harbor.

A river called MEANDER flowed into the bay near the city. The river had lots of S-curves. We get our word "meander" from it. It means to do like the Meander river did,

The map shows how the river silted in and what was Miletus harbor became dry land.
http://en.wikipedia.org/wiki/File:Miletus_Bay_silting_evolution_map-en.svg

Very nice. I hadn't noted the connection between the river's name and the verb - interesting!
 
  • #30
US publisher's page still gives September 2011 as their estimated date the book will appear
http://www.westholmepublishing.com/thefirstscientist.html

The Amazon.com page has the earlier estimates August 2011 (I'm inclined to think the later date more realistic.)
https://www.amazon.com/dp/1594161313/?tag=pfamazon01-20

The book is already on sale in the UK!
http://www.amazon.com/dp/1594161313/?tag=pfamazon01-20

I'll carry along some other links and information for any interested newcomers:
Canadian Amazon page:
http://www.amazon.com/dp/1594161313/?tag=pfamazon01-20

French publisher's page for the 2009 edition:
http://www.dunod.com/sciences-techn...ciences-de-la-matiere-et-/anaximandre-de-mile

Amazon.fr page:
http://www.amazon.com/dp/2100529390/?tag=pfamazon01-20

French edition TOC with sporadic rough interpretive translation:
Sommaire Introduction.

1. Le VIe siècle.==The Sixth Century BCE
Un panorama du monde.
Le savoir du VIe siècle : l’astronomie.==Science in the Sixth Century: Astronomy
Les dieux.==The Gods
Milet.==The City of Miletus

2. Les contributions d’Anaximandre. ==Anaximander's Contributions

3. Les phénomènes atmosphériques.==Meteorology (Understanding rain, thunder,..)
Le naturalisme cosmologique et biologique.==Naturalism in Cosmology and Biology

4. Flotte la Terre.==The Earth Floats in Space==Earth Adrift in Space (not needing to be anchored to supports)

5. Entités invisibles et lois naturelles.==Invisible Entities and Natural Laws
Y a-t-il dans la nature quelque chose que nous ne voyons pas?==Can Unseen Stuff Help Explain?
L’idée de loi naturelle : Anaximandre, Pythagore et Platon.==The Idea of Natural Law (Originated with Anax. Pyth. Plato)

6. Quand la révolte devient vertu.==(Rational) Revolt Becomes Respectable

7. Écriture, démocratie et mélange des cultures.==Writing, Democracy, Crossfertilization
La Grèce archaïque
L’alphabet grec.
Science et démocratie.==Science and Democracy (Are Related)
Le mélange des cultures.==Cultural Mixing

8. Qu’est-ce que la science?==What Characterizes Science?
Penser Anaximandre après Einstein et Heisenberg.==Significance of Anax'der's Thought Seen Post-GR and QM, i.e. from Post-Einstein-Heisenberg Perspective (!)
L’effondrement des illusions du XIXème siècle.==Collapse of 19-th Century Illusions(!)
La science ne se réduit pas à des prédictions vérifiables.==Real Science Can Not Be Reduced To Testable Predictions (!)
Explorer les formes de pensée du monde.==Exploring How to Think the World
L’évolution de l’image du monde.==Getting a New Picture of the World
Règles du jeu et commensurabilité.==Rules of Play--Continuity of Understanding
Éloge de l’incertitude.==Best Understanding Recognizes Uncertainty

9. Entre relativisme culturel et pensée de l’absolu. Navigating Between Cultural Relativism and the Absolute-Avoiding Dangerous Foolishness on Either Side.

10. Peut-on comprendre le monde sans les dieux?==Can We Get Along Without Gods?
Le conflit.

13. La pensée pré-scientifique.==Pre-Scientific Thought
La nature de la pensée mystico-religieuse. Les différentes fonctions du divin.

14. Conclusion : l’héritage d’Anaximandre==Anaximander's Legacy to UsThe English edition publisher says the book is 256 pages. For a rough guess about material being added one can compare with the French edition, which is listed as 192 pages. Some of the difference could be due to other factors such as typesize.
However it would be natural for changes, revisions, additions to have occurred in the intervening 3 years and to appear in the English edition.
 
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  • #31
Given that this is turning into the longest teaser campaign for a book ever, you can read my own page summarising Anaximander's worldview at...

http://www.dichotomistic.com/logic_dichotomies_history_one.html

Or a good academic source is Anaximander and the Origins of Greek Cosmology by Charles Kahn.
 
  • #32
A young Dutch expert on Anaximander I just now was thinking of is Dirk Couprie.
I will hunt up his website. He has a book out too, but a website is quick and free.
http://www.dirkcouprie.nl/home.html

Dirk says:
"My main professional interest is in Presocratic philosophy and cosmology, and especially those of Anaximander, who lived at Miletus, 610-547 B.C."

and he gives some links:

"For more information on my latest book Heaven and Earth in Ancient Greek Cosmology: From Thales to Heraclides Ponticus click here.
Here is a special link to my article on Anaximander in The Internet Encyclopedia of Philosophy."
 
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  • #33
apeiron said:
Given that this is turning into the longest teaser campaign for a book ever, you can read my own page summarising Anaximander's worldview at...

http://www.dichotomistic.com/logic_dichotomies_history_one.html

Or a good academic source is Anaximander and the Origins of Greek Cosmology by Charles Kahn.

Apeiron, great to hear from you! I got out Charles Kahn's book from the library a couple of months back and dipped into it. There is also a young Dutch historian of science who has been studying Anax and thinking about his importance---he has a website, I put his name (Dirk Couprie) and a link to his website in the preceding post.

I like very much how you start your page. Ionia was the birthplace of rational thinking for many reasons. It is worth quoting bold blue:Greek philosophy began some two centuries before Athens in the scattered city states and colonies of Ionia, now the coast of Turkey. Ionia was the birthplace of rational thinking for many reasons.

The great civilisations of Mesopotamia, Egypt and the Indus had been agriculture-based, inward-looking, feudal and bureaucratic. The Ionian cities survived on fishing and trading. They were ruled by laws rather than kings. They had a wealthy merchant class who traveled widely. And by this time – around the 7th century BC – there was writing to record people’s ideas.

These first thinkers also had the advantage that they could come at the problem of existence with an utterly fresh eye. To use a memorable phrase, they saw: "the world lit by a kind of six-o'clock-in-the-morning light and the dew imperishably on the grass."

There were many famous Ionians - Thales, Pythagoras, Heraclitus, Parmenides, Zeno, Empedocles and Democritus are just some of them. Thales is conventionally considered the very first philosopher. But I would rather accord that honour to Anaximander of Miletus.


from Apeiron's http://www.dichotomistic.com/logic_dichotomies_history_one.html
 
  • #34
I was mistaken about Dirk Couprie's age, when I posted earlier. For some reason I had gotten the idea that he was an under-40 scholar. He was born in 1940!

marcus said:
A young Dutch expert on Anaximander I just now was thinking of is Dirk Couprie.
I will hunt up his website. He has a book out too, but a website is quick and free.
http://www.dirkcouprie.nl/home.html

Dirk says:
"My main professional interest is in Presocratic philosophy and cosmology, and especially those of Anaximander, who lived at Miletus, 610-547 B.C."

and he gives some links:

"For more information on my latest book Heaven and Earth in Ancient Greek Cosmology: From Thales to Heraclides Ponticus click here.
Here is a special link to my article on Anaximander in The Internet Encyclopedia of Philosophy."

When I posted earlier I did not have a working link to his article on Anaximander in the Internet Encyclopedia of Philosophy. I will hunt up one.
http://webcache.googleusercontent.com/search?q=cache:MAklZI346aYJ:www.iep.utm.edu/anaximan/+Couprie+Anaximander+Internet+Encyclopedia&cd=1&hl=en&ct=clnk&gl=us&client=safari&source=www.google.com

The regular IEP site is temporarily not responding.

I think Couprie's IEP article on Anaximander is quite helpful. He has also written a book, with two other historians of science, called "Anaximander in Context".

He also has a bibliography on Anaximander. Lengthy interesting list of writings.
http://www.dirkcouprie.nl/Anaximander-bibliography.htm
From the looks of it, the field of Anaximander Studies is expanding :biggrin:
 
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  • #35
Until recently the UK Amazon page for the new Anaximander book contained an error. Which fooled me. UK said the book was already on sale there and estimated it would take 12-14 days to fill the order. As of today they've corrected that mistake.

Also the cover design has been changed. The publisher's page shows a much better cover design than, say, a week ago. Piece of actual Greek stone carving: face of Anax in relief, with his name scratched at the top in what might be Attic caps.

I'm thinking the book will probably actually be out next month.

marcus said:
US publisher's page still gives September 2011 as their estimated date the book will appear
http://www.westholmepublishing.com/thefirstscientist.html

The Amazon.com page has the earlier estimates August 2011 (I'm inclined to think the later date more realistic.)
https://www.amazon.com/dp/1594161313/?tag=pfamazon01-20

The book is already on sale in the UK!
http://www.amazon.com/dp/1594161313/?tag=pfamazon01-20

I'll carry along some other links and information for any interested newcomers:
Canadian Amazon page:
http://www.amazon.com/dp/1594161313/?tag=pfamazon01-20

French publisher's page for the 2009 edition:
http://www.dunod.com/sciences-techn...ciences-de-la-matiere-et-/anaximandre-de-mile

Amazon.fr page:
http://www.amazon.com/dp/2100529390/?tag=pfamazon01-20

French edition TOC with sporadic rough interpretive translation:
Sommaire Introduction.

1. Le VIe siècle.==The Sixth Century BCE
Un panorama du monde.
Le savoir du VIe siècle : l’astronomie.==Science in the Sixth Century: Astronomy
Les dieux.==The Gods
Milet.==The City of Miletus

2. Les contributions d’Anaximandre. ==Anaximander's Contributions

3. Les phénomènes atmosphériques.==Meteorology (Understanding rain, thunder,..)
Le naturalisme cosmologique et biologique.==Naturalism in Cosmology and Biology

4. Flotte la Terre.==The Earth Floats in Space==Earth Adrift in Space (not needing to be anchored to supports)

5. Entités invisibles et lois naturelles.==Invisible Entities and Natural Laws
Y a-t-il dans la nature quelque chose que nous ne voyons pas?==Can Unseen Stuff Help Explain?
L’idée de loi naturelle : Anaximandre, Pythagore et Platon.==The Idea of Natural Law (Originated with Anax. Pyth. Plato)

6. Quand la révolte devient vertu.==(Rational) Revolt Becomes Respectable

7. Écriture, démocratie et mélange des cultures.==Writing, Democracy, Crossfertilization
La Grèce archaïque
L’alphabet grec.
Science et démocratie.==Science and Democracy (Are Related)
Le mélange des cultures.==Cultural Mixing

8. Qu’est-ce que la science?==What Characterizes Science?
Penser Anaximandre après Einstein et Heisenberg.==Significance of Anax'der's Thought Seen Post-GR and QM, i.e. from Post-Einstein-Heisenberg Perspective (!)
L’effondrement des illusions du XIXème siècle.==Collapse of 19-th Century Illusions(!)
La science ne se réduit pas à des prédictions vérifiables.==Real Science Can Not Be Reduced To Testable Predictions (!)
Explorer les formes de pensée du monde.==Exploring How to Think the World
L’évolution de l’image du monde.==Getting a New Picture of the World
Règles du jeu et commensurabilité.==Rules of Play--Continuity of Understanding
Éloge de l’incertitude.==Best Understanding Recognizes Uncertainty

9. Entre relativisme culturel et pensée de l’absolu. Navigating Between Cultural Relativism and the Absolute-Avoiding Dangerous Foolishness on Either Side.

10. Peut-on comprendre le monde sans les dieux?==Can We Get Along Without Gods?
Le conflit.

13. La pensée pré-scientifique.==Pre-Scientific Thought
La nature de la pensée mystico-religieuse. Les différentes fonctions du divin.

14. Conclusion : l’héritage d’Anaximandre==Anaximander's Legacy to UsThe English edition publisher says the book is 256 pages. For a rough guess about material being added one can compare with the French edition, which is listed as 192 pages. Some of the difference could be due to other factors such as typesize.
However it would be natural for changes, revisions, additions to have occurred in the intervening 3 years and to appear in the English edition.

Charles Kahn, in his book "Anaximander and the Origins of Greek Cosmology" has a photo of this relief portrait and says "probably early Roman Empire after Hellenistic original". The fragment is in the Museo Nazionale Romano.
That would make sense. The Romans copied enormous amounts of Greek artwork. And I can imagine Greeks of the Hellenistic period making artist-conception portraits of famous philosophers. The Hellenistic period in history was started by a guy who had Aristotle for his private tutor.

I can't decide whether to call it mezzo-relievo or alto-relievo. I think it is mid-relief. No complete undercutting of the head.
The cover photo of this mid-relief portrait seems to have been clarified with photoshop, or else taken with very good lighting---I'm glad to say.

Not sure what "early Roman Empire" means in context of Charles Kahn's caption. Romans conquered Macedonia around 170 BCE. Alexander Great died around 330 BCE, he created a kind of Hellenistic cooperative sphere of influence (not exactly an empire). What would you say the dates are for the Hellenistic period? 330-170 BCE? Or more broadly 350-100 BCE?

So maybe this Roman copy of head and torso Anaximander was done in 100 BCE. The Hellenistic period original might for example have been made during the lifetime of Archimedes 287-212 BCE.

That was a time when Greeks determined the circumference of the Earth accurately to within 2%. (Eratothenes in Alexandria) and discovered that the sun was much farther away than the moon (more than 10 times farther, perhaps 20, Aristarchus on Samos, born 300 years after Anax, in 310 BCE)
 
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<h2>1. Who was Anaximander?</h2><p>Anaximander was an ancient Greek philosopher and scientist who lived in the 6th century BC. He is often referred to as the first scientist because of his contributions to the fields of astronomy, geography, and philosophy.</p><h2>2. What were Anaximander's major contributions?</h2><p>Anaximander is best known for his theory of the "apeiron", or the boundless, which he believed was the fundamental substance that makes up the universe. He also created the first map of the known world, proposed that the Earth was suspended in space, and developed the concept of the "cosmic cycle".</p><h2>3. How did Anaximander's ideas influence later scientists?</h2><p>Anaximander's ideas had a significant impact on the development of Western science. His theories of the "apeiron" and the Earth's position in space were later expanded upon by philosophers such as Plato and Aristotle. His map of the world also influenced the work of later geographers and cartographers.</p><h2>4. What is the significance of Anaximander's legacy?</h2><p>Anaximander's legacy lies in his pioneering approach to understanding the natural world. He was one of the first thinkers to use observation and reason to explain the physical world, laying the foundation for modern scientific inquiry. His ideas also challenged traditional religious and mythological beliefs, paving the way for a more rational and empirical approach to understanding the universe.</p><h2>5. How does Anaximander's work relate to modern science?</h2><p>Anaximander's ideas may seem outdated by modern scientific standards, but his approach to understanding the natural world is still relevant today. His emphasis on observation, reason, and the search for a fundamental substance that makes up the universe are all fundamental principles of modern science. Additionally, his contributions to the fields of astronomy and geography have laid the groundwork for our current understanding of the cosmos and the world we live in.</p>

1. Who was Anaximander?

Anaximander was an ancient Greek philosopher and scientist who lived in the 6th century BC. He is often referred to as the first scientist because of his contributions to the fields of astronomy, geography, and philosophy.

2. What were Anaximander's major contributions?

Anaximander is best known for his theory of the "apeiron", or the boundless, which he believed was the fundamental substance that makes up the universe. He also created the first map of the known world, proposed that the Earth was suspended in space, and developed the concept of the "cosmic cycle".

3. How did Anaximander's ideas influence later scientists?

Anaximander's ideas had a significant impact on the development of Western science. His theories of the "apeiron" and the Earth's position in space were later expanded upon by philosophers such as Plato and Aristotle. His map of the world also influenced the work of later geographers and cartographers.

4. What is the significance of Anaximander's legacy?

Anaximander's legacy lies in his pioneering approach to understanding the natural world. He was one of the first thinkers to use observation and reason to explain the physical world, laying the foundation for modern scientific inquiry. His ideas also challenged traditional religious and mythological beliefs, paving the way for a more rational and empirical approach to understanding the universe.

5. How does Anaximander's work relate to modern science?

Anaximander's ideas may seem outdated by modern scientific standards, but his approach to understanding the natural world is still relevant today. His emphasis on observation, reason, and the search for a fundamental substance that makes up the universe are all fundamental principles of modern science. Additionally, his contributions to the fields of astronomy and geography have laid the groundwork for our current understanding of the cosmos and the world we live in.

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