| T.R | Title | User | Personal
Name | Date | Lines |
|---|
| 1575.1 | 18 trillion... in Dutch | BRSTR2::SYSMAN | Dirk Van de moortel | Tue Mar 03 1992 10:59 | 22 |
| > Alpha is a 64 bit machine. (2^64) - 1 is 18,446,744,073,709,551,615.
> Can someone provide the units to "read" this number?
We call it 18 trillion, 446 billiard, 744 billion, 73 milliard, 709 million,
551 thousand and 615.
Power Dutch Enlish/American
-----------------------------------------------
10^0 one one
10^3 thousand thousand
10^6 million million
10^9 milliard billion
10^12 billion ? \
10^15 billiard ? \
10^18 trillion ? \
10^21 trilliard ? \
10^24 quadrillion ? > Can someone fill this in?
10^27 quadrilliard ? /
10^30 ? pentillion ? /
10^33 ? pentilliard ? /
10^36 ? sextillion ? /
etcetera ... (basic counting in Latin/Greek)
|
| 1575.2 | Base 1000 vs base 1000000 | CADSYS::COOPER | Topher Cooper | Tue Mar 03 1992 11:25 | 27 |
| RE: .1
The British have traditionally used the European system -- but there
has been a move towards following the American sytem of late. The
traditional British scheme does not generally use "milliard" but mostly
refers to 1000 millions. The American system is basically a
superimposition of a simple base one-thousand numeration scheme on top
of the base ten scheme. The European system uses base one-million
instead. The powers of 1000 in the American system go:
1000^1 = a thousand
1000^2 = a thousand thousand = a million
1000^3 = a thousand million = a billion
1000^4 = a thousand billion = a trillion
1000^5 = a thousand trillion = a quadrillion
1000^6 = a thousand quadrillion = a quintillion (sometimes a
pentillion but that is improperlly formed from a Greek rather
than a Latin root).
1000^7 = a thousand quintillion = a sextillion
1000^8 = a thousand sextillion = a septillion
1000^9 = a thousand septillion = an octillion
1000^10 = a thousand octillion = a nonillion
1000^11 = a thousand nonillion = a decillion
And so on, tacking on Latin cardinals' combining forms as needed.
Topher
|
| 1575.3 | one easy way to do it... | ZFC::deramo | Colorado Rocky Mountain High | Tue Mar 03 1992 11:58 | 8 |
| In VAX LISP V3.0-A,
Lisp> (format t "~R" (1- (expt 2 64)))
eighteen quintillion, four hundred and forty-six quadrillion, seven hundred and
forty-four trillion, seventy-three billion, seven hundred and nine million, five
hundred and fifty-one thousand, six hundred and fifteen
NIL
Lisp>
|
| 1575.4 | LISP LISP LISP LISP .... | STAR::ABBASI | | Tue Mar 03 1992 14:46 | 1 |
| Man, Is'nt LISP powefull !
|
| 1575.5 | LISP formatting stop at .. | STAR::ABBASI | | Tue Mar 03 1992 14:54 | 33 |
| Why did LISP stop format when the number got larger?
/nasser
ps. i think the congress need a LISP to help them figure how to say our
budget deficit :-)
-----------------------------------------------------------------------
the break down happens at (expt 2 220)
(format t "~R" (1- (expt 2 220)))
; Starting full GC ...
; ... Full GC finished
1684996666696914987166688442938726917102321526408785780068975640575
NIL
(format t "~R" (1- (expt 2 219)))
eight hundred and forty-two vigintillion, four hundred and ninety-eight
novemdecillion, three hundred and thirty-three octodecillion, three
hundred andforty-eight septendecillion, four hundred and fifty-seven
sexdecillion, fourhundred and ninety-three quindecillion, five hundred
and eighty-threequattuordecillion, three hundred and forty-four
tredecillion, two hundred and twenty-oneduodecillion, four hundred and
sixty-nine undecillion, three hundred andsixty-three decilli
on, four hundred and fifty-eight nonillion, five hundred and fifty-one
octillion, one hundred and sixty septillion, seven hundred and sixty-three
sextillion, two hundred and four quintillion, three hundred and ninety-two
quadrillion, eighthundred and ninety trillion, thirty-four billion, four
hundred andeighty-seven million, eight hundred and twenty thousand,
two hundred and eighty-seven
NIL
|
| 1575.6 | | ZFC::deramo | Colorado Rocky Mountain High | Tue Mar 03 1992 15:36 | 6 |
| That's weird...the way I remembered it working, it used to
use "times ten to the sixty-sixth" for the next block after
"vigintillion". I suppose someone complained about that and
it was changed.
Dan
|
| 1575.7 | (format t "thanks") | SYOMV::BYERS | | Tue Mar 03 1992 16:05 | 1 |
| Thanks for the answer, and for using lisp to provide it.
|
| 1575.8 | Obvious next question | VMSDEV::HALLYB | Fish have no concept of fire | Tue Mar 03 1992 16:49 | 1 |
| So, can LISP output in Dutch?
|
| 1575.9 | And, and, and, ... | IMTDEV::ROBERTS | Reason, Purpose, Self-esteem | Tue Mar 03 1992 17:15 | 13 |
| This may be more a matter of grammar than mathematics, but I remember
being taught that the use of "and" in numbers is limited to where we
put the decimal point. For example, "three hundred AND forty two
dollars AND twenty six cents" is wrong; "three hundred forty two
dollars AND twenty six cents" is right. So, if that's true, the answer
should be:
eighteen quintillion, four hundred forty-six quadrillion, seven hundred
forty-four trillion, seventy-three billion, seven hundred nine million,
five hundred fifty-one thousand, six hundred fifteen.
Dwayne
|
| 1575.10 | Wrong! :-) | TOOK::ALEX | Alex Allister | Tue Mar 03 1992 17:17 | 21 |
| re .3
In VAX LISP V3.0-A,
Lisp> (format t "~R" (1- (expt 2 64)))
eighteen quintillion, four hundred and forty-six quadrillion, seven hundred and
forty-four trillion, seventy-three billion, seven hundred and nine million, five
hundred and fifty-one thousand, six hundred and fifteen
NIL
Lisp>
LISP may know its math, but what it does not know is English (or is it
Americanish that it does not know?)
The correct answer is:
eighteen quintillion, four hundred forty-six quadrillion, seven hundred
forty-four trillion, seventy-three billion, seven hundred nine million, five
hundred fifty-one thousand, six hundred fifteen
Alex
|
| 1575.11 | agreed | ZFC::deramo | Colorado Rocky Mountain High | Tue Mar 03 1992 19:20 | 8 |
| re last 2 ("and") ...
Yes, that's been mentioned here before (420.17). I didn't want
editing the answer in .3 by hand to make it look like the problem
in VAX LISP had been corrected. The correct reading requested in
the base note is as in .9 and .10.
Dan
|
| 1575.12 | | AUSSIE::GARSON | | Tue Mar 03 1992 21:50 | 6 |
| re .10
> LISP may know its math, but what it does not know is English (or is it
> Americanish that it does not know?)
Americanish, I think. In English the "and" is normal usage.
|
| 1575.13 | | FHOPAS::JUNKER::RABAHY | dtn 471-5160 | Wed Mar 04 1992 11:21 | 8 |
| Interestingly enough this offers an opportunity to use intergers for
money instead of floating point format. As a signed number with an
implied decimal point;
92,233,720,368,547,758.08
represents a large enough value to deal with almost any amount likely
to come up in the financial world.
|
| 1575.14 | | CX3PT1::KOWTOW::J_MARSH | Svelte & Petite-nosed | Wed Mar 04 1992 15:31 | 12 |
| RE: -.1
� represents a large enough value to deal with almost any amount likely
� to come up in the financial world.
Don't count on it. :-)
Old fogys like me remember being told that a 16-bit address space was
plenty. "Who would ever need more than 64K?"
I would not be surprised if in 20 years the U.S. deficit exceeds the
figure stated.
|
| 1575.15 | A 16Kbit address space is plenty enough for me! | VMSDEV::HALLYB | Fish have no concept of fire | Wed Mar 04 1992 17:00 | 7 |
| > I would not be surprised if in 20 years the U.S. deficit exceeds the
> figure stated.
Even without the implied decimal point, 2^64 is almost exactly the rate at
which Hungarian peng�es were exchanged for a single new �forint� in 1946.
John
|
| 1575.16 | | TOOK::ALEX | Alex Allister | Fri Mar 06 1992 10:19 | 21 |
| re .13
> Interestingly enough this offers an opportunity to use intergers for
> money instead of floating point format. As a signed number with an
> implied decimal point;
> 92,233,720,368,547,758.08
> represents a large enough value to deal with almost any amount likely
> to come up in the financial world.
Integers with an implied decimal have been used as a rule in financial
application since "time immemorial" as far as electronic computing is
concerned.
Even the lowliest 16-bit PDP-11s in the seventies had business-oriented
operating systems that allowed up to 18 decimal digit signed arithmetic
specificially to represent $,$$$,$$$,$$$,$$$,$$$.�� which is only
one digit short of the above.
Alex
|
| 1575.17 | Size of physical things. | DIODE::CROWELL | Jon Crowell | Sun Mar 22 1992 18:38 | 6 |
|
Can someone compare 2^64 to some physical things like the
number of ATOMS that compose the earth, etc.
Jon
|
| 1575.18 | some numbers from REA handbook | STAR::ABBASI | i^(-i) = SQRT(exp(PI)) | Sun Mar 22 1992 18:57 | 18 |
|
2^64 ~= 18 x 10^18
"close" earth numbers:
Volumn = 1083 x 10^9 cubic meter
moment of inertia = 8 x 10^44 gram square cm
loss of heat of earth throug radiation into space = 2.4 x 10^22
cal/100 years
area of land = 149 x 10^6 km square
mass of earth = 5.97 x 10^27 grams
physical constants:
electron charge to mass ratio = 10^11 C/Kg
Faraday constant = 10^7 C/Kmol
Energy mass conversion = 10^16 J
light year = 9.4 x 10 ^15 meters
|
| 1575.19 | a rough guestimate on number of atoms | STAR::ABBASI | i^(-i) = SQRT(exp(PI)) | Sun Mar 22 1992 19:48 | 4 |
| there are about 5.97x 10^58 electrons in earth body, assume as
"average" 12 electrons per an atom, there are about 5 x 10^57 atoms.
|
| 1575.20 | | TRACE::GILBERT | Ownership Obligates | Mon Mar 23 1992 11:08 | 2 |
| The number of electrons and protons in the universe, according to
Sir Arthur Eddington, is about 10^79, or roughly 2^262.
|
| 1575.21 | | PIANST::JANZEN | Thomas MLO21-4/E10 223-5140 Veni Vidi MIDI | Mon Mar 23 1992 12:28 | 3 |
| If dark matter has electrons in it, the number of electrons in the universe
is probably much much higher
tom
|