Posts Tagged ‘Mathematica’
“Many of the things you can count, don’t count. Many of the things you can’t count, really count”*…
Still, we count… and have, as Keith Houston explains, for much, if not most of human history…
Figuring out when humans began to count systematically, with purpose, is not easy. Our first real clues are a handful of curious, carved bones dating from the final few millennia of the three-million-year expanse of the Old Stone Age, or Paleolithic era. Those bones are humanity’s first pocket calculators: For the prehistoric humans who carved them, they were mathematical notebooks and counting aids rolled into one. For the anthropologists who unearthed them thousands of years later, they were proof that our ability to count had manifested itself no later than 40,000 years ago.
…
Counting, fundamentally, is the act of assigning distinct labels to each member of a group of similar things to convey either the size of that group or the position of individual items within it. The first type of counting yields cardinal numbers such as “one,” “two,” and “three”; the second gives ordinals such as “first,” “second,” and “third.”
At first, our hominid ancestors probably did not count very high. Many body parts present themselves in pairs—arms, hands, eyes, ears, and so on—thereby leading to an innate familiarity with the concept of a pair and, by extension, the numbers 1 and 2. But when those hominids regarded the wider world, they did not yet find a need to count much higher. One wolf is manageable; two wolves are a challenge; any more than that and time spent counting wolves is better spent making oneself scarce. The result is that the very smallest whole numbers have a special place in human culture, and especially in language. English, for instance, has a host of specialized terms centered around twoness: a brace of pheasants; a team of horses; a yoke of oxen; a pair of, well, anything. An ancient Greek could employ specific plurals to distinguish between groups of one, two, and many friends (ho philos, to philo, and hoi philoi). In Latin, the numbers 1 to 4 get special treatment, much as “one” and “two” correspond to “first” and “second,” while “three” and “four” correspond directly with “third” and “fourth.” The Romans extended that special treatment into their day-to-day lives: after their first four sons, a Roman family would typically name the rest by number (Quintus, Sextus, Septimus, and so forth), and only the first four months of the early Roman calendar had proper names. Even tally marks, the age-old “five-barred gate” used to score card games or track rounds of drinks, speaks of a deep-seated need to keep things simple.
Counting in the prehistoric world would have been intimately bound to the actual, not the abstract. Some languages still bear traces of this: a speaker of Fijian may say doko to mean “one hundred mulberry bushes,” but also koro to mean “one hundred coconuts.” Germans will talk about a Faden, meaning a length of thread about the same width as an adult’s outstretched arms. The Japanese count different kinds of things in different ways: there are separate sequences of cardinal numbers for books; for other bundles of paper such as magazines and newspapers; for cars, appliances, bicycles, and similar machines; for animals and demons; for long, thin objects such as pencils or rivers; for small, round objects; for people; and more.
Gradually, as our day-to-day lives took on more structure and sophistication, so, too, did our ability to count. When farming a herd of livestock, for example, keeping track of the number of one’s sheep or goats was of paramount importance, and as humans divided themselves more rigidly into groups of friends and foes, those who could count allies and enemies had an advantage over those who could not. Number words graduated from being labels for physical objects into abstract concepts that floated around in the mental ether until they were assigned to actual things.
Even so, we still have no real idea how early humans started to count in the first place. Did they gesture? Speak? Gather pebbles in the correct amount? To form an educated guess, anthropologists have turned to those tribes and peoples isolated from the greater body of humanity, whether by accident of geography or deliberate seclusion. The conclusion they reached is simple. We learned to count with our fingers…
From an excerpt from Houston’s new book, Empire of the Sum: The Rise and Reign of the Pocket Calculator: “The Early History of Counting,” @OrkneyDullard in @laphamsquart.
* Albert Einstein
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As we tally, we might send carefully calculated birthday greetings to Stephen Wolfram; he was born on this date in 1959. A computer scientist, mathematician, physicist, and businessman, he has made contributions to all of these fields. But he is probably best known for his creation of the software system Mathematica (a kind of “idea processor” that allows scientists and technologists to work fluidly in equations, code, and text), which is linked to WolframAlpha (an online answer engine that provides additional data, some of which is kept updated in real time).
The Ages of Data…
It’s said that there’s a kind of hierarchy of knowing: data can be assembled into knowledge, which (with experience and empathy) can become understanding, then with grace, wisdom… but it all starts with data.
Happily for us, Stephen Wolfram, the creator of the indispensable Mathematica and more recently of Wolfram|Alpha, takes data very seriously…
The precursors of what we’re trying to do with computable data in Wolfram|Alpha in many ways stretch back to the very dawn of human history—and in fact their development has been fascinatingly tied to the whole progress of civilization.
Last year we invited the leaders of today’s great data repositories to our Wolfram Data Summit—and as a conversation piece we assembled a timeline of the historical development of systematic data and computable knowledge.
This year, as we approach the Wolfram Data Summit 2011, we’ve taken the comments and suggestions we got, and we’re making available a five-feet-long (1.5 meters) printed poster of the timeline—as well as having the basic content on the web.
Wolfram’s explanatory blog post, “Advance of the Data Civilization: A Timeline,” is fascinating– both an unpacking of the events collected and an analysis of the patterns they form…
The story the timeline tells is a fascinating one: of how, in a multitude of steps, our civilization has systematized more and more areas of knowledge—collected the data associated with them, and gradually made them amenable to automation.
The usual telling of history makes scant mention of most of these developments—though so many of them are so obvious in our lives today. Weights and measures. The calendar. Alphabetical lists. Plots of data. Dictionaries. Maps. Music notation. Stock charts. Timetables. Public records. ZIP codes. Weather reports. All the things that help us describe and organize our world… the timeline is not about technology or science, it’s about data and knowledge. When you look at the timeline, you might ask: ”Where’s Einstein? Where’s Darwin? Where’s the space program?” Well, they’re not there. Because despite their importance in the history of science and technology, they’re not really part of the particular story the timeline is telling: of how systematic data and knowledge came to be the way it is in our world. And as I said above, much of this is “back room history”, not really told in today’s history books.
…
…when I first looked at the completed timeline, the first thing that struck me was how much two entities stood out in their contributions: ancient Babylon, and the United States government. For Babylon—as the first great civilization—brought us such things as the first known census, standardized measures, the calendar, land registration, codes of laws and the first known mathematical tables. In the United States, perhaps it was the spirit of building a country from scratch, or perhaps the notion of “government for the people”, but starting as early as 1785 (with the formation of the US Land Ordinance), the US government began an impressive series of firsts in systematic data collection.
Read the full post— it’s an eminently-worthy guided walk from data to understanding.
[Thanks to Curiosity Counts for the pointer]
As we fondly recall counting on our fingers, we might recall that it was on this date in 1986 that Howard Stern became a national radio personality when WYSP in Philadelphia first simulcast his show. By the time that he moved to satellite radio in 2004, Stern had won Billboard‘s Nationally Syndicated Air Personality of the Year award eight times; his show had the distinction of being the most-fined radio program (the Federal Communications Commission [FCC] issued fines of $2.5 million to station licensees for broadcasting allegedly indecent material on Stern’s show).
Interestingly, it was also on that same date– August 18, 1986– that the Anti-Howard, John Tesh, became a national broadcast personality with his first appearance on Entertainment Tonight.
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