Talk:2091: Million, Billion, Trillion

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I actually think we have too many names for large numbers. It's really only necessary to introduce a new name when you reach the square of the previous name. So, we'd still have tens and hundreds, but there's no need for "one thousand, one hundred" when you can just have "eleven hundred". We'd be better off just naming 10^4, 10^8, 10^16, 10^32, and that's already well beyond anything needed for normal usage, with only a handful of names. None of this "quattuordecillion" stuff that no-one can remember without sitting down and working it out. 05:32, 28 December 2018 (UTC)

And what you get is a super-weird "double-log" scale! The British (and other nations') usage is correct. Anything above thousand is completely abstract for a human being and intuitively nonlinear (some nations - ancient Greeks and others - go as far as ten thousands, a myriad, but this is it). A thousand squared is already far beyond intuition so it is a good candidate for a new unit representing A BIG NUMBER, plus log scale is a good abstraction allowing for rapid expansion in magnitude. So taking Latin numerals and adding an -illion suffix (except the irregular million) for subsequent powers of 10^6 is a really convenient system. Of course, it goes only as far as ordinary Latin numbers go, then you need to invent something else, but at this point it's only for entertainment. For anything physical you probably would never need a number much larger than a googol. -- 09:26, 28 December 2018 (UTC)
I think we should refrain from saying one usage is correct over the other - that's just arrogant and mean. That said, the current explanation states that usage is different between American and British English, but my reading on Wikipedia (which is already hyperlinked in the explanation) states that in recent decades Britain has declared their use of short units and therefore British English is now the same as American English. The only regions where it appears there is still usage of the long system is in French and Spanish speaking regions, as well as some special cases around the world. Don't shoot the messenger - I'm just repeating what it states on the Wikipedia page. Ianrbibtitlht (talk) 10:15, 28 December 2018 (UTC)
Rereading the Wikipedia page, it was in 1974 that Britain declared their use of the short scale for large numbers. Ianrbibtitlht (talk) 10:19, 28 December 2018 (UTC)
Actually, Germany also uses the "long" (i.e. natural) scale to this day, and I remember how much trouble I had understanding the American system. As the second comment above states, the long scale is (prefix)-llion = 10^(prefix*6), or (prefix)-lliarde = 10^(prefix*6+3); whereas in the short system, (prefix)-llion = 10^(prefix*3+3), which is rather less obvious, if you have any intuition for numbers (and a little Latin). German Wikipedia tells me that the long scale was invented 1484/1550 by French mathematicians, and the short one in the 17th century in Italy and France by some geniuses that thought when grouping the digits on paper by three instead of six, they should change the group names to make confusion complete. Also, they claim official usage of the short variant is in USA, Brazil, and English-language finance. The names for the systems, however, are from 1975, from yet another French mathematichan, Geneviève Guitel. --Khms (talk) 10:59, 28 December 2018 (UTC)
East Asian languages such as Japanese actually do use the power-4 scale, with the naming being ten, ten x ten = hundred, hundred x hundred = big'ousand, big'ousand x big'ousand = morebiggienoughty, morebiggienoughty x morebiggienoughty = superbiggienoughty, etc.
Not quite--at least not nowadays. There's a word for "ten-thousand ('man' in Japanese)", so a million is "100 ten-thousands", a 10 million is "1000 ten-thousands", and 100 million goes to the new word "1 hundred-million ('oku' in Japanese)" The scale goes by 10^4, with a new word for 10^8, 10^12, 10^16, etc. though most people won't encounter anything much higher than that. Correspondingly, old Japanese text would put the commas every 4 digits. Modern practice is to put the comma every 3 digits to match Western practice, which actually makes it harder to read in Japanese. 20:49, 2 January 2019 (UTC)
Crore. Weird word unless you are in or from India. Snezzy (talk) 11:48, 28 December 2018 (UTC)
The "named power-of-two power-of-ten" system you propose already exists, in the form of Donald Knuth's -yllion system. 10^2 = hundred, 10^4 = myriad, 10^8 = myllion, 10^16 = byllion, 10^32 = tryllion, etc. 10^63 would be written as "ten hundred myriad myllion byllion tryllion", and the next power of 10, 10^64, is one quadryllion. 10^100 (i.e. googol) is one myriad tryllion quadryllion. It's quite efficient, as you point out, and were I to rewrite our number system from scratch, it's the system I would use. Unfortunately, nobody alive grew up with -yllions, so we're stuck with the inefficiency of named multiple-of-three powers-of-ten. Although apparently some parts of East Asia at some points in time used a similar system, with specific characters for the -yllions up to 10^4096. I find myself severely disappointed that those characters are now used to represent different (and much smaller) numbers. --Someone Else 37 (talk) 01:38, 30 December 2018 (UTC)

I said this earlier, and I'm going to say it again - the split between use of the short scale and the long scale is NOT a U.S. thing, nor an Atlantic Ocean thing! Just navigate to the hyperlinked page on Wikipedia, and scroll down to the graphic map showing who uses which system to see this very clearly. The majority of the globe uses the short scale except for the following regions: Europe other than Britain, Iran, some countries in Africa, and some countries in Latin America and South America, as well as French speaking regions in otherwise short-scale countries. Notable non-U.S. short-scale countries include Russia and Australia, along with Eastern South America and most of Africa. It's frustrating when people insist on making something about those U.S.A. people that has nothing to do with us. Ianrbibtitlht (talk) 14:51, 28 December 2018 (UTC)

Even the line containing the "In Britian" hyperlink does NOT say what the linked page actually states - that Britain uses the short-scale now, although they used the long-scale quite some time ago (before 1974). Ianrbibtitlht (talk) 14:58, 28 December 2018 (UTC)

Russian is a weird hybrid of short and long scale. We use milliard like long scale, then trillion like short scale. Not confusing at all :) 11:43, 3 January 2019 (UTC)

The line that includes "Though people in Britain often use the American definition as of the past few decades" is a bit misleading. In fact, the government of Great Britain announced, proclaimed, and declared that they will officially use the short-scale scheme in 1974. If you live there and are still using the long-scale system, then per your countries leadership you are wrong! The short-scale system is YOUR definition, not the American definition. Interestingly, we didn't invent the short-scale system because it was brought to the Americas by Europeans before the United States of America was even founded! We just continued to use it because it's all we knew until Randall came along and pointed out how screwed up the rest of the world is! Ianrbibtitlht (talk) 15:46, 28 December 2018 (UTC)

Long live scientific / exponential notation! 16:19, 28 December 2018 (UTC)~

Set the first tick on the y-axis to have value 0, and set the last tick to have value 5. Then, the y-values of all the y-axis ticks are 0, 1.0053, 1.9973, 3.0127, 3.9947, and 5, approximately as expected. (The x-axis is at y-value -0.9903.) Now, setting the x-axis as the base-10 logarithm, the points' coordinates are as follows: (6, 0.5388); (7, 2.4800); (8, 3.7672); (9, 1.8009); (10, 3.3622); (11, 4.2860); (12, 3.2495); (13, 4.1125); (14, 4.5939). LegionMammal978 (talk) 16:24, 28 December 2018 (UTC)

I'd even say that 999,999,999 (especially when worded in full) seems like a way bigger number than 1 billion, despite being one less. -- 16:42, 28 December 2018 (UTC)

The graph reminded me of number-form synaesthesia, which I have. My number shape (and most people's) is different though, and much more curly. Cosmogoblin (talk) 17:20, 28 December 2018 (UTC)

The way I keep track of this is to remember that 1 trillion is 1 million millions. So if the US current national debt (counting neither debt by the states nor unfunded future liabilities) is 23 trillion dollars, then you would need a million dollars from 23 million people to pay it off. The US total population is roughly 327 million. So you would need a million dollars from every 14th person (counting adults, children and babies). Considering that there are only 11 million millionaires in the US and only 172 thousand people with net worth over 25 million, we are in deep doo-doo. Clearly, not even the fantasy "tax the rich" is not going to help pay the future. Lack of number appreciation is going to kill us. Rtanenbaum (talk) 22:23, 30 December 2018 (UTC)

Many of you may be too young to remember the nuclear reactor incident at Three Mile Island [1]. There was a news broadcast at the time that stated that radiation of less than 5 rem (Roentgen Equivalent Man) was not considered biologically significant. He then went on to say that measurements at the plant showed 3,000 milli-REM, which was obviously (in his mind) much higher and extremely scary. In case you don't realize it, 3,000 milli-rem is 3 rem. In addition, some style guides recommend that you avoid the words billion and trillion. Australian scientific style guied. BradleyRoss (talk) 03:11, 31 December 2018 (UTC)

Comic No. 558 '1000 Times' is directly related to this one. 08:29, 9 January 2019 (UTC)