Posts: 19
Threads: 1
Joined: May 2013
Maybe I miss the joke or my calculations went strange wrong but anyway. ;)
First take a look to the
HP35 Direct Mail Letter, Page 1, 1972 link.
The calculation is wrong. In the context of this "memo" it's a bit funny. Why put HP this "memo" back to the
2009 press kit?
If I were evil, I could say it fits to the presented calculators on this 2009 press kit. Sorry HP ;).
Michael
PS: Tested on the following devices:) Aristo Darmstadt slide rule, HP45, HP28S, HP42S, HP48SX, HP49G, HP15C LE, HP35s, Casio FX115M, Sharp ELW506X, Aristo M85
Posts: 22
Threads: 5
Joined: Mar 2013
I also calculated a slightly different answer with my HP35s:
1.772825519
Posts: 1,665
Threads: 142
Joined: Jan 2009
Except that the correct answer is 0.1772825509 on an HP 35 or 0.1772825519 on an HP 35s. So the real error is a factor of 10 decimal point shift.
Edited: 9 May 2013, 4:19 p.m.
Posts: 2,761
Threads: 100
Joined: Jul 2005
You're probably in ALL mode. Just scroll the display right (a truly annoying feature of the HP 35s) and see the exponent is 1:
Posts: 4,587
Threads: 105
Joined: Jul 2005
Hmmmh, my result is 0,177282551904 on my WP 34S (what else?). I wonder how you did that on an Aristo Darmstadt.
d;)
Posts: 1,665
Threads: 142
Joined: Jan 2009
This can be fixed on the HP 33s/35s by typing DISPLAY FIX .0, which gets you 10 decimal point places w/o the exponent.
Posts: 1,665
Threads: 142
Joined: Jan 2009
0.177282551901 on my Corvus 500.
Posts: 2,761
Threads: 100
Joined: Jul 2005
Thanks. I remember I used FIX 8, but I didn't like this either. The HP 33s method (hiding the least significant digits in favor of the exponent) was much better.
Posts: 1
Threads: 0
Joined: May 2013
ARE YOU NOT ENTERTAINED?
Posts: 22
Threads: 5
Joined: Mar 2013
Yeah, I feel like an idiot. I normally keep my 35s in FIX 4. The answer in the letter didn't include a x10^1 and I saw that E at the end, but ignored it. I was paying more attention to the differences between the 19/10000000000 and 9/10000000000 partial fractions than seeing his error by a factor of 10. I don't really know what the equation is about, but he said it was a solid angle and didn't include units. Is that radians or degrees? If it's radians, that's enough of an angle to completely miss the moon and probably hit the barn next door.
Posts: 19
Threads: 1
Joined: May 2013
Quote:
Hmmmh, my result is 0,177282551904 on my WP 34S (what else?). I wonder how you did that on an Aristo Darmstadt.
d;)
I calculate (slide) 0,157.
Yes it's not spot on but I'm not grown up with slide rulers.
That's what I've done:
a) 2,5 / 10,3 = (D)/(C) > (1D) = 0,243
b) 0,243ˆ2 = (D)>(A) = 0,059
c) 0,059 + 1 = 1,059
d) 1/1,059 = (C)>(CI) = 0,95
e) SQR( 0,95 ) = (A)>(D) = 0,975
f) 1  0,975 = 0,025
g) 2 * 0,025 = 0,05
h) Pi * 0,05
h.1) Pi * 5 (D)>(C)>(D) = 15,7
h.2) 15,7 / 100 = 0,157
My Aristo Darmstadt is from my father. He studied EE first with slide rules and later with the ARISTO M85. But this Aristo Darmstadt was never used before. It was a gift from a company called Groschopp & Co. GMBH Viersen as printed on the back. I've gotten both for my little calculator collection. ;)
Edited: 9 May 2013, 6:44 p.m.
Posts: 19
Threads: 1
Joined: May 2013
Yes I am very well entertained with this advertising memo. Thanks. ;)
From time to time I'll check all caculators in my collection.
From time to time I'm walking around the internet about historic HP calculator stuff.
In this case I stumbled over this document and think...
Edited: 9 May 2013, 7:08 p.m.
Posts: 776
Threads: 25
Joined: Jun 2007
Quote: I don't really know what the equation is about, but he said it was a solid angle and didn't include units. Is that radians or degrees? If it's radians, that's enough of an angle to completely miss the moon and probably hit the barn next door.
If it is a solid angle (which makes sense in context), then the units are steradians.
There are 4*pi steradians in a complete sphere (as viewed from inside looking out  i.e. the entire field of view ALL around you.) The "units" of solid angle are radians^2. A piece of the sky 1 degree by 1 degree (about 1/57.3 of a radian in each direction) would subtend an area of the sky of (1/57.3)^2 steradians (neglecting corrections for projecting on to a curved background).
Posts: 4,587
Threads: 105
Joined: Jul 2005
Quote:
A piece of the sky 1 degree by 1 degree (about 1/57.3 of a radian in each direction) would subtend an area of the sky of (1/57.3)^2 steradians (neglecting corrections for projecting on to a curved background).
(Emphasis added) Why that correction at all? IMHO you are looking at (1/57.3)^2 of the visible universe  not at a flat or curved wallpaper.
d:?
Posts: 776
Threads: 25
Joined: Jun 2007
For small angles, yes, you can pretty much ignore the effect.
Technically, you are integrating angles over a curved surface, and as the angles get bigger, you MUST correct for projection effects.
In the limit, consider a full circle  if you multiply 360 degrees by 360 degrees you get 129600 square degrees, versus the correct value of about 41253.
In spherical coordinates, you are integrating
d(Omega) = sin(theta) d(theta) d(phi)
Posts: 28
Threads: 0
Joined: Jul 2008
0.177282551895 on my new toy a Psion Organiser II LZ64.
Posts: 4,587
Threads: 105
Joined: Jul 2005
Dave, thanks for your explanation :) Once (some decades ago) I knew by heart how that shall be integrated, but I never would have attributed that to a curved surface. Thanks for the refresher.
d:)
Posts: 4,587
Threads: 105
Joined: Jul 2005
Thanks! This demonstrates the slide rule is good enough for detecting that error at least, although the result is some 11% off.
d:)
Posts: 735
Threads: 34
Joined: May 2007
You could even do that in your head using the fact that for small x:
With x = 2.5/10.3 ~ 1/4 and 2*Pi ~ 6 we end up with 6/32 = 3/16 = 0.1875.
Cheers
Thomas
Posts: 735
Threads: 34
Joined: May 2007
You could avoid cancellation using the identity:
You would end up with:
a) 2,5 / 10,3 = (D)/(C) > (1D) = 0,243
b) 0,243ˆ2 = (D)>(A) = 0,059
c) 0,059 + 1 = 1,059
...
SQR(1,059) = 1,029
Pi * 0,059 = 0,185
0.185 * 2 = 0,37
0,37 / 1,029 = 0,36
0,36 / 2,029 = 0,177
However I didn't use a slide rule but the results might be close enough.
This formula might be even easier to use:
a) 2,5 / 10,3 = (D)/(C) > (1D) = 0,243
b) 0,243ˆ2 = (D)>(A) = 0,059
c) 0,059 + 1 = 1,059
...
SQR(1,059) = 1,029
Pi * 0,059 = 0,185
0.185 * 2 = 0,37
1 + 0,059 + 1,029 = 2,088
0,37 / 2,088 = 0,177
Kind regards
Thomas
Edited: 10 May 2013, 3:03 p.m.
Posts: 25
Threads: 3
Joined: Aug 2012
Using a Faber Castell 2/83 which offers better accuracy I get 0,176 which is only 0,73% off.
Edit: With a better calibrated 2/83N that has a better cursor and using the W scales only plus LL02 to get the root, I achieved .1772, but this took me some minutes to position the slider as accurate as possible.
I could try a 1914 Nestler 27a, which is 50cm long and has a W scale too (giving it an effective length of 1m), but I am afraid that it is not much more accurate than a 1972 Faber Castell.
Edited: 13 May 2013, 3:48 p.m.
Posts: 735
Threads: 34
Joined: May 2007
(2,5 / 10,3)^{2} * = 0,185
0,185 * 2 = 0,37
0,37 / 2,08 = 0,178
Cheers
Thomas
Posts: 4,587
Threads: 105
Joined: Jul 2005
Great documentation, Thomas! I'd have prefered an Aristo 969 though.
d:)
Edited: 11 May 2013, 1:48 a.m.
Posts: 735
Threads: 34
Joined: May 2007
You could use Stefan Vorkoetter's Aristo Multilog Nr. 970 Simulator
. Is that close enough?
Best regards
Thomas
Posts: 2,761
Threads: 100
Joined: Jul 2005
Great! Your scheme works nicely here as well:
...but I still prefer
2.5 ENTER 10.3 / XEQ S > 0.17728255191
where S is an 18byte 9step (LBL included) program, on my HP42S :)
Cheers,
Gerson.
Posts: 735
Threads: 34
Joined: May 2007
Hey Gerson
You can't let us hanging here without posting the program.
Best regards
Thomas
Posts: 2,761
Threads: 100
Joined: Jul 2005
Hello Thomas,
Actually I resorted to a simplification you used one of these days, the one involving hyperbolics. That's my way to say "thank you" :)
Cheers,
Gerson.

HP42S:
00 { 18Byte Prgm }
01>LBL "S"
02 ASINH
03 COSH
04 1/X
05 PI
06 STO+ ST X
07 *
08 RCL ST L
09 +/
10 .END.
00 { 18Byte Prgm }
01>LBL "S"
02 ASINH
03 COSH
04 1/X
05 SIGN
06 RCL ST L
07 PI
08 STO+ ST X
09 *
10 .END.
WP34S:
001 LBL A
002 ASINH
003 COSH
004 1/x
005 +/
006 INC X
007 # pi
008 STO+ X
009 *
010 END
001 LBL A
002 1
003 ^{c}ABS
004 1/x
005 +/
006 INC X
007 # pi
008 STO+ X
009 *
010 END
Posts: 735
Threads: 34
Joined: May 2007
My first attempts were pretty straight forward but now that I saw your LASTXjuggling I could improve them a little:
00 { 17Byte Prgm }
01>LBL "S"
02 ASINH
03 COSH
04 PI
05 STO+ ST X
06 ENTER
07 RCL/ ST Z
08 
09 END
00 { 16Byte Prgm }
01>LBL "S"
02 1
03 >POL
04 PI
05 STO+ ST X
06 ENTER
07 RCL/ ST Z
08 
09 END
And here's the one using the other formula:
00 { 20Byte Prgm }
01>LBL "S"
02 X^2
03 1
04 RCL+ ST Y
05 SQRT
06 RCL+ ST L
07 /
08 PI
09 STO+ ST X
10 *
11 END
Posts: 82
Threads: 15
Joined: Jan 2008
0.17728255190 on my HP50g.
Edited: 13 May 2013, 10:21 a.m.
Posts: 2,761
Threads: 100
Joined: Jul 2005
Great, two bytes and one step less!
Posts: 735
Threads: 34
Joined: May 2007
Well, not on the HP35 and not within 20 seconds.
Posts: 758
Threads: 9
Joined: Jul 2007
The result shown in that 1972 ad is exactly the same as the user of the 2011 HP15C Limited Edition would get! So where's the problem? :)
Such are the limitations of the old 1972 HP35 with respect to numerical accuracy. They remained (for this problem) until the Saturnbased machines were produced in 1986 (see HP15C results below). In the USSR, one could take the popular RPN Elektronika MK 61 (1983 to 1994) and get a far less accurate and precise result.
Machine Introduced Result
MK 61 1983 0.177 282 58
HP35 1972 0.177 282 550 9
HP15C (and 15C LE) 1982 0.177 282 550 9
HP28S and later 1986 0.177 282 551 901
Casio fx115ES Plus 2011 0.177 282 551 903 861
Free42  0.177 282 551 903 885 91
Wolfram Alpha  0.177 282 551 903 885 912 305...
It's really impressive in a negative way how poorly the MK 61 (sold into the mid1990s in the former USSR) performs, and really impressive in a positive way that Free42 produces a result that agrees with Wolfram Alpha for all 17 digits generated.
It's also notable that the numerical accuracy and precision of the $18 Casio fx115ES Plus is significantly better than the HP 42S, or even the HP 50G.
Posts: 2,761
Threads: 100
Joined: Jul 2005
On the WP34S:
001: LBL A ; this is essentially Thomas Klemm's program above, the most optimized one.
002: 1
003: [>]POL
004: # [pi]
005: ENTER[^]
006: RCL/ Z
007: 
008: STO+ X
009: END
DBLON
2.5 ENTER 10.3 / A
returns 34 significant digits, all of them agreeing with Wolfram Alpha's result:
0.177 282 551 903 885 912 305 974 246 640 144 0
Posts: 4,587
Threads: 105
Joined: Jul 2005
Quote:
The result shown in that 1972 ad is exactly the same as the user of the 2011 HP15C Limited Edition would get! So where's the problem?
It's only off by a factor of 10, so don't care!
d;)
Posts: 19
Threads: 1
Joined: May 2013
Very interesting to see how far this thread runs.
Here is my little RPL for the HP48SX:
<< ; rewritten from Gerson W.Barosa's program above.
17 SF 18 CF ; rad mode
15 CF 16 CF ; rec mode
[pi] [pi] ROT
1 >V2 16 SF ; >pol
V> DROP
/  DUP +
>NUM
>>
'A' STO
2.5 ENTER 10.3 / A
STD: .1772825519
SCI: 1.77282551900E1
Michael

The easy way on HP48SX ;)
<<
SQ
1 +
INV
SQRT
NEG 1 +
[pi] * 2 *
>>
'A2' STO
2.5 ENTER 10.3 / A2
STD: .177282551901
SCI: 1.77282551901E1
Edited: 14 May 2013, 1:56 p.m.
Posts: 653
Threads: 26
Joined: Aug 2010
Quote:
It's really impressive in a negative way how poorly the MK 61 (sold into the mid1990s in the former USSR) performs
The MK61 is an 8digit machine. Its result is off by just 3 ULP. Which is perfectly fine and neither better nor worse than the HP28s which is off by 3 ULP either. Compare this with our beloved HP15C and its 10 (!) ULP error.
Quote:
It's also notable that the numerical accuracy and precision of the $18 Casio fx115ES Plus is significantly better than the HP 42S, or even the HP 50G.
The Casio tops them all  with a result no less than 24 ULP off. #)
Yes, the absolute error usually is lower if the number of digits (precision) increases. But 15digit precision does not mean you'll also get 15digit accuracy. ;)
Dieter
Posts: 2,761
Threads: 100
Joined: Jul 2005
Quote:
Very interesting to see how far this thread runs.
It's been interesting since the beginning. I wonder how many people saw the ad and never found the mistake. Thanks for posting!
Quote:
The easy way on HP48SX ;)
<<
SQ
1 +
INV
SQRT
NEG 1 +
[pi] * 2 *
>>
'A2' STO
2.5 ENTER 10.3 / A2
STD: .177282551901
SCI: 1.77282551901E1
There was a time even half a byte mattered. Not anymore! But let's save a few of them, just for fun :)
40 bytes:
\<< SQ 1 + INV \v/ NEG
1 + \pi * 2 *
\>>
37.5 bytes:
\<< ASINH COSH \pi 2 *
SWAP / LASTARG DROP
 NEG
\>>
35 bytes:
\<< ASINH COSH INV
SIGN LASTARG  \pi 2
* *
\>>
35 bytes:
\<< ASINH COSH INV
NEG 1 + \pi * 2 *
\>>
< 35 bytes:
???
Posts: 735
Threads: 34
Joined: May 2007
Quote:
Very interesting to see how far this thread runs.
Maybe we can still go a little further. I was just curious on the impact of the accuracy when using different formulas:
I expected the first to be the most accurate since the cancellation is omitted. And then there's a subtle difference between the 2nd and the 3rd formula as we loose a significant digit when calculating the square root before calculating the reciprocal. This can be observed e.g. when calculating [1/x] for 9.999999999E1 on a calculator that provides 10 digits. The result is just 1.000000000, thus we lost that last digit. Therefore it's better to calculate the square root of a number which is little smaller as 1 than if it is a little bigger that 1.
Here's what I came up with. The first result is the expected result if we trust WolframAlpha:
WolframAlpha
0.17728255190388591230597424664014404052042011206343029588068530548343231405482470150877366060101266263651199682635366833...
MK61
0.1772825519...
0.17728255
0.17728258
0.17728195
HP21
0.177282551903...
0.1772825520
0.1772825509
0.1772825478
HP15C
0.177282551903...
0.1772825520
0.1772825509
0.1772825541
HP48
0.17728255190388...
0.177282551904
0.177282551901
0.177282551907
Free42
0.177282551903 885912305974 246640...
0.177282551903 885912305974 1674
0.177282551903 885912305974 2930
0.177282551903 885912305977 4346
WP34S
0.177282551903 885912305974 246640144040...
0.177282551903 885912305974 2466401440
0.177282551903 885912305974 2466401453
0.177282551903 885912305974 2466401434
The intermediate result was multiplied by and then 2 in this order. If available Rectangle>Polar conversion (or something similar) was used to calculate sqrt(1 + x^{2}) in the 3rd formula.
There's only one result that I didn't expect: why is the 2nd formula more accurate than the 1st in case of Free42?
Cheers
Thomas
Posts: 735
Threads: 34
Joined: May 2007
\<<
ASINH COSH
\pi DUP +
DUP ROT / 
\>>
32.5 bytes
Posts: 2,761
Threads: 100
Joined: Jul 2005
Another 32.5byte solution, albeit not so elegant:
\<<
ASINH COSH
INV \pi *
\pi  2 *
\>>
Posts: 758
Threads: 9
Joined: Jul 2007
IMHO, to be really fair one needs to evaluate the formula simply as shown in the original advertisement. None of the identities and trigonometric equivalencies seem appropriate since those weren't expressed in the advertisement. :)
But still...interesting...
Posts: 4,587
Threads: 105
Joined: Jul 2005
Double precision result of the original formula from the WP 34S:
0.177 282 551 903 885 912 305 974 246 640 145 3
FWIW
d:)
Posts: 19
Threads: 1
Joined: May 2013
Quote:
It's been interesting since the beginning. I wonder how many people saw the ad and never found the mistake. Thanks for posting!
That's exactly what I have asked myself.
Thank you back. It's a pleasure to see all the nice solutions and tiny programs. I've learned and refreshed a lot. Thomas K. shows very smart mathematical transformations. I also like the discussion thinking about accuracy and precision and not to forget the slide rulers...
32,5 Byte = unbelievable ;)
Michael
Edited: 16 May 2013, 4:53 p.m.
Posts: 758
Threads: 9
Joined: Jul 2007
Very impressive work on the WP 34S, as every example that comes up shows the numerical analysis expertise of its creators!
I wish the WP34 were commercially available...I'm personally just not skilled for any local repurpose project.
Edited: 17 May 2013, 2:31 p.m.
Posts: 4,587
Threads: 105
Joined: Jul 2005
Quote:
I wish the WP34 were commercially available...
It is, e.g. here.
d:)
Posts: 758
Threads: 9
Joined: Jul 2007
Quote:
It is, e.g. here.
Thanks Walter. After all this time, I've somehow missed the commercial availability of the WP 34S.
I just ordered one...there appears to be a small backorder period.
Posts: 4,587
Threads: 105
Joined: Jul 2005
Thanks, Mike. And don't forget the manual ...
d:)
