Although many Douglas Adams fans believe that The Answer to The Ultimate Question of Life, the Universe, and Everything is 42, I believe it to be closer to 137. The following is reprinted with permission from the March, 1988 edition of OMNI Magazine, in the "CONTINUUM" column.

One of the great physicists of this century is a man named Richard Feynman, who teaches at Caltech and knows as much about the way the cosmos works as any man alive. Feynman has participated in half a dozen extraordinary theoretical developments and won a fistful of prizes, including the one you get from Sweeden. Even so, he likes to tell people that physics has not accomplished as much as some physicists like to brag, and that we are not as close to a great universal theory of matter and energy as some theorists like to think. Indeed, Feynman has said, physicists ought to put a special sign in their offices to femind themselves of how much they don't know. The message on the sign would be very simple. It would consist of entirely one word, or, rather, number: 137.

One hundred thirty-seven is the value of a number called the fine-structure constant. This constant, 137, is the way physicists describe the probability that an electron will emit or absorb a photon. Because this is the basic physical mechanism of electricity and macnetism, the fine-structure constant has its own symbol: (a), the Greek letter alpha.

Now, alpha is nothing more, nothing less than the square of the charge of the electron divided by the speed of life times Placnk's constant. Thus this one little number contains in itself the guts of electromagnetism (the electron charge), relativity (the speed of light),

Physicists would like to believe that these phenomena fit together tidily in accordance with one big plan. Thwy would like the ratio of electromagnetism, relativity, and quantum mechanics to be a number like one, or maybe two times pi. They do not like its being 137 == a prime number, for heaven's sake!

The significance of alpha was first spelled out in 1915 by a physicist named Arnold Sommerfeld -- at the time, measurement errors made the value closer to 136 == and physics ever since has been littered with efforts to explain it. The most famour attempt was that of Sir Arthur Eddington, a prominent astronomer who believed that such constants could be used to produce a theory of the universe. He built a hubge 16 dimensional equation full of these consatnts and claimed that alpha could be calculated from the number of terms: ((16^2 - 16) / 2) + 16 = 136.

Unfortunately, experiments quickly showed that alpha was really closer to 137. Plucky Arthur Eddington was not dismayed. He said he had forgotten to add one more factor -- alpha itself -- and made the value 137. For this,

Throughout the Thrities and Fourties, the greatest scientists of the day triend and failed to figure out the magic number 137. The great Werner Heisenberg told his friends that the problems of quantum theory would disappear only when 137 was explained, and spent years trying to explain it; fortunately, the problems did go away despite his failure. One of Heisenberg's friends, theorist Wolfgang Pauli, wasted endless research time trying to multiply pi by other numbers to get 137; Edward Teller, now a prominent advocate of star wars, derived alpha from gravitation' and a dotty Japanese showed that the difference in the masses of the proton and delta particle is equal to alpha. All this shows is that there are many ways you can multiply and add a bunch of numbers to get 137. The closest any of these people got to the answer, perhaps, was when Pauli died -- in hospital room 137.

The best explanation of the mystery ever given to Victor Weisskopf, another leading theorist from that time, was provided by Gershom Scholem, one of the most eminent scholars of Jewish mysticism. When Scholem met Weisskopf, he asked about the prominent unsolved problems in physics. Weisskopf said, Well, there's this number, 137 .... And Scholem's eyes lit up! He said, "Did you know that one hundred thirty-seven is the number associated with the Cabala?"

After Physicists slam into a problem for a few decades, they tend to go into greener pastures. Alpha calculating has been out of fashion for a while. Physics is making progres without it. But it is comforting to know that if you're at a party, and some know-it-all is talking about the how great the progress of science is, you can always say, "That's all very true, my man. But why is alpha equal to one hundred thirty-seven?" -- Charles C. Mann

Charles C. Mann

cmann@interserv.com

ccm@crocker.com

Also check out 137.com!

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