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Louis Stumpers
L Stumpers 
Number of games in database: 55
Years covered: 1932 to 1969
Overall record: +13 -32 =10 (32.7%)*
   * Overall winning percentage = (wins+draws/2) / total games.

Repertoire Explorer
Most played openings
D94 Grunfeld (3 games)
E60 King's Indian Defense (2 games)
B59 Sicilian, Boleslavsky Variation, 7.Nb3 (2 games)
C65 Ruy Lopez, Berlin Defense (2 games)
D45 Queen's Gambit Declined Semi-Slav (2 games)

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(born Aug-30-1911, died Sep-27-2003, 92 years old) Netherlands

[what is this?]

Frans Louis Henri Marie Stumpers was born in Eindhoven, Netherlands, on 30 August 1911. (1) He was champion of the Eindhoven Chess Club in 1938, 1939, 1946, 1947, 1948, 1949, 1951, 1952, 1953, 1955, 1957, 1958, 1961 and 1963, (2) and the champion of the North Brabant Chess Federation (Noord Brabantse Schaak Bond, NBSB) in 1934, 1935, 1936, 1937, 1938, 1939, 1940, 1941, 1942, 1943, 1944, 1946, 1948, 1949, 1950, 1951, 1952, 1953, 1954, 1955, 1959, 1961, 1962, 1963, 1964, 1965, 1966 and 1967. (3) He participated in five Dutch Chess Championships, with a 4th place in 1948, (4) and represented his country at the 1st European Team Championship, in Vienna in 1957 (two games, vs Josef Platt and Max Dorn). (5) From 1945 and until about 1956, he was first Secretary and then Chairman of the NBSB. (3)

Stumpers was a physicist, and worked for the Philips company as an assistant from 1928. During 1934-1937, he studied at the University of Utrecht, where he took the master's degree. (6) In 1938 he was again employed at Philips, (6) and at a tournament in 1942, he supplied the hungry chess players with food from his employer. (3) After the war, he made a career in physics, with patents and awards on information ('radio') technology. He received degrees from several universities and colleges, including in Poland and Japan. (1, 3, 6) He retired from Philips in 1972, but continued teaching, (6) partly as professor at the University of Utrecht (1977-1981). (7) He was also Vice President (1975-1981) and Honorary President (1990-2003) of URSI, the International Union of Radio Science. (8)

Louis Stumpers married Mieke Driessen in 1954. They had five children, three girls and two boys. (6)

1) Online Familieberichten 1.0 (2016),; Digitaal Tijdschrift, 5 (255),
2) Eindhovense Schaakvereniging (2016), http://www.eindhovenseschaakverenig....
3) Noord Brabantse Schaak Bond (2016), Their main page:
4) (2016),
5) Olimpbase,
6) K. Teer, Levensbericht F. L. H. M. Stumpers, in: Levensberichten en herdenkingen, 2004, Amsterdam, pp. 90-97, Also available at
7) Catalogus Professorum Academię Rheno-Traiectinę,
8) URSI websites (2016), and

Suggested reading: Eindhovense Schaakvereniging 100 jaar 1915-2015, by Jules Welling. Stumpers' classic doctoral thesis Eenige onderzoekingen over trillingen met frequentiemodulatie (1946) can be read at

Last updated: 2016-09-30 02:49:29

 page 1 of 3; games 1-25 of 55  PGN Download
Game  ResultMoves Year Event/LocaleOpening
1. L Stumpers vs J Lehr  1-019 1932 EindhovenD18 Queen's Gambit Declined Slav, Dutch
2. Prins vs L Stumpers  1-039 1936 NED-ch prelimB20 Sicilian
3. L Stumpers vs E Spanjaard  1-055 1938 Dutch Ch prelimE02 Catalan, Open, 5.Qa4
4. E Sapira vs L Stumpers 0-125 1938 NBSB - FlandersD94 Grunfeld
5. A J Wijnans vs L Stumpers  1-036 1939 NED-chB05 Alekhine's Defense, Modern
6. J van den Bosch vs L Stumpers  ½-½58 1939 NED-ch11A48 King's Indian
7. L Stumpers vs S Landau 0-141 1939 NED-ch11D33 Queen's Gambit Declined, Tarrasch
8. H van Steenis vs L Stumpers  1-025 1939 NED-chB02 Alekhine's Defense
9. L Stumpers vs H Kramer  0-136 1940 HilversumE25 Nimzo-Indian, Samisch
10. A J van den Hoek vs L Stumpers  1-027 1941 BondswedstrijdenB10 Caro-Kann
11. T van Scheltinga vs L Stumpers 1-035 1942 NED-ch12D94 Grunfeld
12. W Wolthuis vs L Stumpers  ½-½52 1946 NED-ch prelim IC58 Two Knights
13. L Stumpers vs J H Marwitz  1-040 1946 NED-ch prelim ID31 Queen's Gambit Declined
14. G Fontein vs L Stumpers  ½-½26 1946 NED-ch prelim ID94 Grunfeld
15. L Stumpers vs H van Steenis 0-124 1946 NED-ch prelim ID28 Queen's Gambit Accepted, Classical
16. C B van den Berg vs L Stumpers  1-058 1946 NED-ch prelim ID19 Queen's Gambit Declined Slav, Dutch
17. L Stumpers vs Euwe 0-130 1946 NED-ch prelim IE60 King's Indian Defense
18. L Stumpers vs Cortlever  ½-½50 1946 NED-ch prelim IE60 King's Indian Defense
19. L Stumpers vs Grob 1-060 1947 Int BA55 Old Indian, Main line
20. L Stumpers vs H van Steenis  0-133 1947 Int BD23 Queen's Gambit Accepted
21. Tartakower vs L Stumpers 1-024 1947 Int BD74 Neo-Grunfeld, Nxd5, 7.O-O
22. V Soultanbeieff vs L Stumpers  ½-½46 1947 Int BD96 Grunfeld, Russian Variation
23. L Stumpers vs H Kramer  0-140 1948 NED-ch14B92 Sicilian, Najdorf, Opocensky Variation
24. L Stumpers vs T van Scheltinga  1-047 1948 NED-ch14C97 Ruy Lopez, Closed, Chigorin
25. Prins vs L Stumpers  ½-½30 1948 NED-chD02 Queen's Pawn Game
 page 1 of 3; games 1-25 of 55  PGN Download
  REFINE SEARCH:   White wins (1-0) | Black wins (0-1) | Draws (1/2-1/2) | Stumpers wins | Stumpers loses  

Kibitzer's Corner
< Earlier Kibitzing  · PAGE 289 OF 289 ·  Later Kibitzing>
Premium Chessgames Member
  al wazir: <sea otter>: I've thought some more about packing seven identical circles in a square box and found the answer to the question I asked.

Start with the arrangement I suggested (one circle in contact with six others surrounding it), enclosed by a square of size 6.0 (three times the diameter of a unit circle), with three of the circles aligned either horizontally or vertically. The square *can* be shrunk by rotating it. The minimum size is reached with a 15-degree rotation. The dimension of the square then is 6.0 cos(15) = 5.79555.... That, however, is bigger than the solution given at the website you linked to, 5.73205...

The arrangement I suggested is indeed the most compact one. It minimizes the space between circles. But the wasted space *outside the circles*, i.e., between the circles and the walls of the box, increases.

Oct-17-16  sea otter: <al wazir>, you may find the solution to N=23 on this link interesting:

It's pretty fun to observe the different grain boundaries when N is large, for example around N=100. The site also has circle packing in a Circle, when hexagonal lattices come into play pretty early sometimes.

Oct-17-16  sea otter: The 51 star problem is especially appealing to me, since 17 is a very nice number imo, and three way symmetry is often very pretty. I'm going to try some of those out later today.
Premium Chessgames Member
  al wazir: <sea otter: you may find the solution to N=23 on this link interesting>. Yes! That's the pattern that should have been used for the flag! But flag manufacturers of the 19th century would have been unhappy with it.

I noticed that the circle-packing solution for N=13 given at the Magdeburg site is *not* isomorphic to the one given at the Wiki site; but in both the size of the square is 2[2+sqrt(3)] = 7.4641... .

Premium Chessgames Member
  WannaBe: OMG, we have a picture for Mr Stumpers!!! Yepee.

In other news,

What was actually detected was M. Carlsen pounding his head against a wall in anger after his loss.

Premium Chessgames Member
  Sneaky: What's the deal with the "EM Drive" anyhow? I still have to remain skeptical that we've found some wrinkle in the conversation of momentum, but gigantic tenets of physics have been overthrown before.
Premium Chessgames Member
  al wazir: <Sneaky: What's the deal with the "EM Drive" anyhow?> First I've heard of it. But maybe you're referring to this WaPo story (which I missed):

I'm not going to look for the journal publication the WaPo piece refers to, because it says that <their machine generated 1.2 millinewtons of thrust per kilowatt of electricity pumped in.> That's not enough to propel a model airplane, let alone drive a spacecraft that will explore strange new worlds, seek out new life and new civilizations, and boldly go where no man has gone before.

The article says that <its thrust seems to come from the impact of photons on the walls of the copper cavity.> That's not very perspicuous. But it also says, more helpfully, that its operation is based on <Newton's third law of motion. It's [analogous to] how jet engines work: As hot gases are expelled out the back of the plane, they produce a thrusting force that moves the plane forward.>

So here's my picture of what's going on: The device works like a microwave oven that somehow functions with the door open, which your kitchen microwave oven does not. Microwaves (the photons) bounce around inside and some of them fly out though the open door. They're analogous to the exhaust jet from a rocket. The "push" is exerted against the closed front side of the oven, just as the thrust produced by a rocket engine is applied to the closed front surface of the combustion chamber. (In the turbojets and fanjets that power airliners the thrust is applied mostly to the blades of the compressors located at the front of the engine.)

In my conception the photons that come out through the back end (the open door) act like an exhaust. But the WaPo piece says that it <generates a small amount of thrust simply by bouncing microwaves around a cone-shaped copper chamber. No propellant goes in, no exhaust comes out, and yet, somehow, the engine can make things move.>.

So maybe they're saying that *nothing* come out the back end, not even photons. Then I don't understand how it can work, unless there's a clue in the "cone-shaped" chamber. If photons are absorbed preferentially at one end because of the conical geometry, then that end heats up, while the photons bouncing off the opposite end cause a bigger force to be applied to that end, because a photon that is reflected transfers twice as much momentum to the surface it hits as one that gets absorbed. That would create a net thrust.

If I were you, I wouldn't call my stockbroker just yet.

Premium Chessgames Member
  beatgiant: <Sneaky>, <al wazir> Wikipedia has a decent article on the phenomenon:
Premium Chessgames Member
  al wazir: <beatgiant: Wikipedia has a decent article on the phenomenon>. The article mentions plasma thrusters and gravity assists, which are already in use, as well as two familiar, scientifically uncontroversial but not very practical "propellantless" mechanisms: solar sails and propulsion by radiation pressure from ground-based beams.

It also says of the "Cannae drive" that <its thrust is derived from a reduced reflection coefficient at one end plate">. That sounds like the second version of the device I described.

The idea underlying its operation is very easy to understand. Imagine that you are an ice skater, standing on the ice. Somebody throws a heavy medicine ball to you and you catch it. That imparts a certain amount of momentum to you and you begin to move in the direction in which the ball was thrown. If you throw the ball back where it came from at the speed with which it arrived, that imparts the same amount of momentum to you and you move twice as fast.

The momentum transferred by photons reflected from the far end of the microwave oven I described is analogous to the momentum transfer resulting from catching and throwing back the medicine ball. The photons that are absorbed in the surface of the opposite side transfer only *half* as much momentum to that surface, because they aren't "thrown back." Force is equal to momentum transferred per unit time, so the force on the far end of the box is twice the force applied to the opposite side.

The calculation is a little trickier than that, however. If photons are merely fired from a source at one end of the "oven" (the chamber) and absorbed at the other without bouncing around at all, there is no net momentum transfer. It's as if a pair of skaters are linked by a rope and one throws a medicine ball to the other. So you have to look closely at how the photons are produced.

Suppose the source is two "photon guns" situated in the middle of the chamber. One fires photons in the forward direction, the other in the aft direction, at the same rate. Each photon carries momentum μ.

No net momentum transfer so far.

Each photon that hits the forward end transfers momentum 2μ. Then it reflects back and hits the aft end and transfers momentum μ in the rearward direction. Meanwhile, each photon fired in the aft direction hits the rear plate and is absorbed, transferring momentum μ. Since the guns fire at the same rate, the momentum transferred in the rearward direction is also 2μ.

So there is still no net momentum transfer.

But what happens to the *energy* carried by those photons that are absorbed? It turns into heat. The absorbing surface gets hotter. When it does, it radiates... photons! Not the same photons that were absorbed, but photons of longer wavelength. If they emerge preferentially from the aft (external) surface of the chamber, then *that* will result in a net momentum transfer to the chamber, and this will create a force that will propel the craft forward. It's not perpetual motion, of course, because a source of energy was needed to create the photons that the photon guns fired.

Can this work? I don't see why not. If the external and internal sides of the absorbing wall are painted different colors, they will radiate at different rates.

There is another sf idea for a form of space propulsion that really is bonkers: the "ram jet." (Not to be confused with air-breathing ram jets, which really work, though only at supersonic -- better, hypersonic -- speeds.)

The idea is that most of the interstellar matter is hydrogen, and some fraction of that is the isotope deuterium, which in principle can produce useful energy through fusion: D + D --> He + energy. (In principle. It works in the Sun, but so far not in the laboratory.) So the space ship carries huge vanes that scoop up interstellar hydrogen atoms, funnel them to the craft, where the deuterium is winnowed out and burned in a controlled fusion reactor.

The trouble with this concept is that it neglects the drag due to all the interstellar matter that gets scooped up that *isn't* deuterium. At near-relativistic speeds the energy needed to scoop up a mass m is close to mc^2, which is what you would get if you converted *all* of that mass *entirely* to energy. But only a tiny fraction of the mass scooped up is deuterium, and the D-D reaction converts only a tiny fraction of it to energy.

Premium Chessgames Member
  WannaBe: So, in theory, water can freeze in hell.

Premium Chessgames Member
  diceman: <WannaBe: So, in theory, water can freeze in hell.>

I'm sure the Clintons have ics cubes.

Premium Chessgames Member
  zanzibar: Here's one that's got me stumped...

Why does Shing-Tung Yau have a photograph of Hamilton in his book <The Shape of Inner Space>?

After all, the guy was in the very next office to him for years... and he's got pictures of just about everybody else.

Dec-09-16  Shams: <WannaBe> <So, in theory, water can freeze in hell.>

You only need to hop two planets over to find ice on the surface of an 800 Fahrenheit planet. :)

Premium Chessgames Member
  zanzibar: Heck, I do that all the time... it should read

<Why <doesn't> Shing-Tung Yau have a photograph of <Richard Hamilton> in his book

<The Shape of Inner Space>



Premium Chessgames Member
  zanzibar: BTW- a pretty good review of the book (or so it appears to me), is found here:

Premium Chessgames Member
  TheFocus: Where does it say that Humpty Dumpty is an egg?
Premium Chessgames Member
  TheFocus: The worst thing about getting hit in the face with pi is that it never ends.
Premium Chessgames Member
  TheFocus: A computer lets you make more mistakes faster than any invention in human history, with the possible exceptions of handguns and tequila.
Premium Chessgames Member
  alexmagnus: Talking about unsolved mathematical problems with a statement looking elementary, here is another one:

Consider the sequence 1, 12, 123, 1234,...12345678910,...

<Unsolved problem>: Will the sequence ever produce a prime number?

It is conjectured that there are infinitely many of them, yet so far none is found - and they checked it till 344869th number so far...

Premium Chessgames Member
  alexmagnus: <<Unsolved problem>: Will the sequence ever produce a prime number?>

But looking at the factorizations of the first 30 numbers (starting with n=2), there is a funny pattern in the smallest factor:

2,3,2,3,2,<127>, 2,3,2,3,2,<113>, 2,3,2,3,2,<13>, 2,3,2,3,2,<5>,

Premium Chessgames Member
  alexmagnus: It's actually quite easy to prove that the 2,3,2,3,2 pattern will repeat forever. So if there is a prime there it will be on a position 1 mod 6. But the numbers at those positions show no apparent pattern in the factorization at all.
Premium Chessgames Member
  WannaBe: This. Is. Freakin'. Hilarious.

Especially the third paragraph, apparently them bots are no different(ly) programmed by humans than how humans' reaction to one another. (See Rogoff Page for real life examples)

Premium Chessgames Member
  Sneaky: <Consider the sequence 1, 12, 123, 1234,...12345678910,...

<Unsolved problem>: Will the sequence ever produce a prime number?

It is conjectured that there are infinitely many of them, yet so far none is found - and they checked it till 344869th number so far...>

When you say "It is conjectured" do you mean that somebody just threw that out there because it's an interesting question, or that there is some theoretical reason why we may suspect that these numbers cannot possibly be prime?

It seems to me that it's not a good way to make prime numbers (ending in things like even numbers, fives, etc.) but I can't think of any good reason why it shouldn't be capable of spitting out a prime. And plus, 344,869 isn't a very big sample set, although I shudder to think to write a program that tries to top it. The 344,869th number must have well over a hundred million digits.

Premium Chessgames Member
  alexmagnus: The conjecture (posed by Smarandache himself AFAIK) is not that there are no primes in that sequence but that there are <infinitely many> of them. But none is known.

As I wrote above - if there are primes in that sequence, the last attached integer must be 1 modulo 6.

Premium Chessgames Member
  Sneaky: I'll just leave this here
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