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Godel's Solution to Einstein's Field Equations (1949)

"Change becomes possible only through the lapse of time"

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Jorgen Veisdal
May 4, 2021
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Einstein presenting the first Albert Einstein Award to Kurt Godel and
Julian Schwinger in 1951 (Photo: IAS Archive)

Following Kurt Godel (1906-1978)'s publications on the first- and
second incompleteness theorems (1931) and later work on Cantor's
continuum hypothesis (1947), Godel in 1948 turned his attention to
cosmology. In an extensive investigation of Einstein's field
equations, Godel found one of few known exact solutions, whose
implications--the "Godel universe"--are very peculiar.

Godel presented his solution to Einstein in the form of a manuscript
on the occasion of the latter's 70th birthday in 1949. Godel was
meant to have his manuscript ready for Paul Arthur Schlipp to include
it in a book entitled Albert Einstein: Philosopher-Scientist*
(Schlipp, 1949). Godel, ever the perfectionist, however did not
finish his essay until about a month before Einstein's birthday and
even then delayed sending it off for a while (Dawson, 2006).
Notorious for his attention to detail, Godel's six-page manuscript
eventually included 34 footnotes.

 
[https]
Group photograph from Einstein's 70th birthday celebration at the
Institute for Advanced Study. Present: Eugene Wigner, Hermann Weyl,
Kurt Godel, J. Robert Oppenheimer and others. (Photo: IAS Archive)

Godel's Interest in Physics

Godel's interest in physics is traceable back to his enrollment at
the University of Vienna in 1924, age 18, where he was first admitted
to study theoretical physics. At the time, he had already read some
of philosopher Immanuel Kant (1724-1804)'s work, and evaluated 
Goethe's dispute with Newton, eventually siding with the latter
(Wang, 1995). Historical documents show Godel on the 26th of January
1925 requesting Kant's 1786 book on the foundations of natural
science from the Library at the University of Vienna.

Fast forward 22 years, as he completed his work on ordinal
definability and Cantor's continuum hypothesis in 1947, by the
following year Godel's interests were again gravitating towards the
intersection of physics and philosophy. As Dawson (2006) intimately
describes, the occasion for which Godel would find himself solving
Einstein's notoriously difficult field equations begins with a
request from Paul Arthur Schlipp, founder and editor of the book
series Library of Living Philosophers. While visiting the Institute
for Advanced Study in May of 1946, Schlipp invited Godel to
contribute a chapter for an upcoming volume of the series, on the
philosophical implications of Einstein's work. He did not propose a
topic for Godel, but likely assumed that Godel (a close friend of
Einstein) would write "something in the way of a personal tribute or
memoir" (Dawson, 2006 p. 176).

Godel had other plans. As Dawson notes, "their friendship had little
to do with the topic Godel ultimately chose to write about for
Schlipp". Indeed, as Einstein's birthday approached, Godel wrote his
mother on February 26th 1949 still concerned about what actual gift
he should present the great man:

    "March 14 is Einstein's seventieth birthday and I don't know what
    I should give him. So far as I know him, he is not at all fond of
    such things. Adele knit for him a wool vest (handstitched things
    are very hard to get here), but then gave up the idea of giving
    it for the birthday and sent it to him in Florida instead. He
    wrote from there a charming note of thanks."

At that point, Godel had been working on the draft of his paper for
over a year. An entry in the diary of Godel's close friend Oskar
Morgenstern (1902-77) from a year prior (February 24th, 1948) notes
that both he (Morgenstern) and Einstein were already then waiting for
Godel to give them a copy of the "Kant-Einstein Aufsatz" ("
Kant-Einstein essay"). In correspondences with his mother, Godel had
at this point "for several weeks" been obsessed with the "problem"
which, although he preferred to take breaks, would inevitably consume
him (Dawson, 2006 p. 182). As he writes, even trying to listen to the
radio or go to the movies (his favorite movie was supposedly 'Show
White and the Seven Dwarfs'), he would be able to do so with "only
half an ear".

Schlipp did eventually manage to get Godel's word that he would at
least present Einstein with a copy of his manuscript at the planned
gala birthday celebration, which he eventually did on March 19th
1949. In addition, as he wrote his mother on April 16th:

    "After long searches I finally sent him an etching for his
    birthday".

The final manuscript was next sent to Schlipp and published in the
7th volume of the series Library of Living Philosophers (Dawson,
2006) as:

  * Godel, K. (1949a). 'A Remark About the Relationship Between
    Relativity Theory and Idealistic Philosophy', in Schlipp, P.A.
    (ed) Albert Einstein: Philosopher-Scientist, pp. 555-563.

An extended version of the paper was later found in Godel's Nachlass. 
Its reference is:

  * Godel, K. (1946-49). 'Some Observations about the Relationship
    between Theory of Relativity and Kantian Philosophy'. Manuscripts
    A,B and C. Unpublished.

The Godel Universe

Godel's interest, as implied above, was in the relationship between
Einstein's relativity theory and the transcendental idealism doctrine
advocated by Immanuel Kant. In his Critique of Pure Reason (1781),
Kant outlines how space and time are pure forms of human intuition
contributed by our own faculty or sensibility. Space and time, in
Kant's view, in other words do not have existence outside of
experience, but are subjective forms of our sensibility and so an a
priori condition rather than artefacts themselves. His interest in
this aspect of Kant's work had invoked Godel's curiosity as to
"whether [the concept of absolute time] ... is a necessary property of
all possible cosmological solutions" of the field equations of
general relativity (Dawson, 2006).

 
[https]
The first two pages of Godel (1949a)'s six-page paper 'A Remark About
the Relationship Between Relativity Theory and Idealistic Philosophy'

The paper Godel presented to Einstein, 'A Remark About the
Relationship Between Relativity Theory and Idealistic Philosophy', is
one of three philosophical essays published by Godel in his lifetime.
Remarkably accessible, even for a layman, the paper includes
discussions on:

  * The Nature of Time: A discussion of the nature of time itself, in
    relation to the works of Einstein and Immanuel Kant;

  * The Godel Metric: Godel's proclamation of having discovered new
    solutions to Einstein's field equations; and

  * Time Travel: A discussion of the implications of his solutions in
    relation to Einstein's relativity theory;

Hao Wang (1921-95) summarizes the content of Godel's paper as follows
(Wang, 1995):

    The theory of relativity reveals that, in a systematic and
    precise organization of all our physical experience, it is by no
    means obvious that there is a unique natural linear ordering of
    all world-points or point-events.

    In the first place, according to the special theory of
    relativity, each state of (uniform) motion determines a frame of
    reference and a temporal order. For two observers in different
    states of motion, the temporal orders are different, so that, for
    instance, it is possible to see A happening before B by one
    observer and B happening before A by the other.

    Since we can envisage observers in very different states of
    motion, there are, relative to such observers, very different
    temporal orders. None of these temporal orders, however, can
    claim, without arbitrariness, the prerogative of being the
    natural or the real one, which is to represent the true universal
    lapse of time.

The Nature of Time

Godel opens his essay by discussing the surprising insight relativity
theory presents into the nature of time, "of that mysterious and
seemingly self-contradictory being which, on the other hand, seems to
form the basis of the world's and our own existence". In particular,
Godel points out, the starting point of special relativity theory 
"consists in the discovery of a new and very astonishing property of
time, namely the relativity of simultaneity". By this Godel is
referring to Einstein's discovery that, in relativity, the statement 
"A occurred before B" loses its objective meaning.

Only in 1976 did Godel tell biographer Wang that his work on
relativity theory had been inspired by his interest in Kant's
philosophy of space and time (as opposed to, the other way around,
based on his frequent talks with Einstein). As he indeed notes in the
1949a paper, he had been particularly struck by the agreement 
"between Kant and relativistic physics insofar as in both theories
the objective existence of a time in the Newtonian sense is denied".

In Einstein's general theory of relativity, the presence of the
additional concept of matter helps eliminate the equal claims of
different observers. That is, in all of the solutions to Einstein's
gravitational equations (before Godel's), "the local times of all
observers fit together in to one world time" (Godel, 1949a p. 559):

    "From this state of affairs, in view of the fact that some of the
    known cosmological solutions seem to represent our world
    correctly, James Jeans (1877-1946) has concluded that there is no
    reason to abandon the intuitive idea of an absolute time lapsing
    objectively".

However, Godel objects: "I do not think that the situation justifies
this conclusion". In particular, "[I] am basing my opinion chiefly on
the following:"

    "There exists cosmological solutions of another kind than those
    known at present"

Godel's is referring to his own (yet unpublished) solutions to
Einstein's field equations, for which, as he notes "the [...] procedure
of defining and absolute time is not applicable, because the local
times of [...] special observers cannot be fitted together into one
world time". In a footnote, he notes that the most "conspicuous"
property of his novel solutions (distinguishing them from those
already known) is that the "compass of inertia in them everywhere
rotates relative to matter, which in our world would mean that it
rotates relative to the totality of galactic universes".

The Godel Metric

 
[https]
Spacetime Diagram of the Godel Universe (Hawking & Ellis, 1973)

In a more technical 1952 paper on the same topic for the Proceedings
of the International Congress of Mathematicians in Cambridge, Godel
wrote that "a directly observable necessary and sufficient criterion
for the rotation of an expanding spatially homogeneous and finite
universe" is that "for sufficiently great distances there must be
more galaxies in one half of the sky than in the other half" (Dawson,
2006 p. 181). The more technical paper is:

  * Godel, K. (1949b).An Example of a New Type of Cosmological
    Solutions of Einstein's Field Equations of Gravitation. Rev. Mod.
    Phys. 21, pp. 447-450.

The inference Godel draws from his solutions is thus that, although
they may not describe our universe, the "nonobjectivety of change"
(nonexistence of absolute time) at least applies in some such
universes (should they exist). Moreover, "it turns out that temporal
conditions in these universes show other surprising features", such
as e.g. "making a round trip on a rocket ship in a sufficiently wide
curve, it is possible in these worlds to travel back into any region
of the past, present, and future, and back again, exactly as it is
possible in other worlds to travel to distant parts of space".

As Morgenstern later recorded in his diary:

    "Talked a lot with Godel. His cosmology is making good progress.
    Now you can in your universe travel back in time; respectively
    drive to any location in any short time. That will make a nice
    stir."

Time Travel

    "This state of affairs seems to imply and absurdity. For it
    enables one e.g., to travel into the near past of those places
    where he has himself lived. There he would find a person who
    would be himself at some earlier period of his life. Now he could
    do something to this person which, by his memory, he knows has
    not happened to him."

Godel is careful to make note that this observation, about time
travel, is very much a technical observation rather than a
prediction. He quickly debunks any speculation that such travel would
be physically feasible, writing "the velocities which would be
necessary in order to complete the voyage in a reasonable length of
time are far beyond everything that can be expected ever to become a
practical possibility". Somewhat sneakily, he however also makes use
of this claim to argue for the viability of his universe, stating 
"therefore it cannot be excluded a priori, on the ground of the
argument given, that the space-time structure of the real world is of
the type described".

To understand Godel's view better, again an entry from Morgenstern's
diary is illuminating. Towards the end of 1948, Morgenstern notes
that neither of the models Godel had obtained were in fact compatible
with an expanding universe. Godel was in other words certainly aware
that his rotating universe (as outlined in the 1949a essay) cannot be
a model of our universe, with its observed red shift for stellar
objects.

Godel's solutions did however demonstrate the possibility for the
existence of such universes. Perhaps encouraged by this fact, he
(Godel) later expanded his investigation into the mathematical
construction of a rotating expanding universe, which might be more
compatible with observation. This investigation is summarized in the
paper:

  * Godel, K. (1952). Rotating Universes in General Relativity Theory
    . Proceedings of the International Congress of Mathematicians in
    Cambridge, Vol. 1. pp. 175-81.

In addition, two notebooks were later found in Godel's Nachlass
containing logs of observations of the angular orientation of
galaxies--perhaps evidence of his hopes of finding physical clues
which might help support future such constructions. As Dawson notes,
Godel at one point even inquired to physicist Freeman Dyson
(1923-2020) about what the latest observational evidence for rotation
were, which, much to Godel's dismay, Dyson informed him were
non-existent.

Einstein's Reaction

Godel went on to lecture on his discoveries at the Institute for
Advanced Study on May 7th, 1949. The talk was well attended. Godel
appears to have be in "good form" and spoke for an hour and a half,
although as Morgenstern noted in his diary, few of Godel's colleagues
seemed able to grasp the implications of his lecture. Indeed, as
Dawson (2006) writes, most appears to have be astounded mainly by the
depth of his knowledge of physics.

In Einstein's published remarks on Godel's essay, he heralds the work
as "an important contribution", noting that the possibility of closed
time-like curves had "disturbed" him at the time of his development
of the theory. Polite as ever, Einstein however also notes that it 
"might be interesting" to explore whether or not Godel's solutions
could "be excluded on physical grounds".

 
[https]
Einstein presenting the first Albert Einstein Award to Kurt Godel and
Julian Schwinger in 1951 (Photo: )

Although he did not "believe in" Godel's universe, in the weeks prior
to his death six years later, Einstein did write--on the occasion of
the death of his friend Michele Besso (Wang, 1995):

    "So in quitting this world he has once again preceded me by a
    little. That doesn't mean anything . For those of us who believe
    in physics, this separation between past, present, and future is
    only an illusion, however tenacious."

For those interested in further exploring the implications of the
Godel universe, Brandeis University Professor of Philosophy Palle
Yourgrau (1950-) later authored two books on the topic:

  * Yougrau, P. (1999). Godel Meets Einstein: Time Travel in the
    Godel Universe*. Open Court.

  * Yourgrau, P. (2006). A World Without Time: The Forgotten Legacy
    of Godel and Einstein*. Basic Books.

---------------------------------------------------------------------

Thank you for reading and subscribing to the Privatdozent newsletter.

Sincerely,

Jorgen

References

  * Dawson, J. (2006). Logical Dilemmas: The Life and Work of Kurt
    Godel*. CRC Press.

  * Hawking, S.W. & Ellis, G.F.R. (1973). The Large Scale Structure
    of Space-Time*. Cambridge University Press.

  * Wang, H. (1995). Time in Philosophy and in Physics: From Kant to
    Einstein and Godel. Synthese 102, pp. 215-234.

  * Wang, H. (1987). Reflections on Kurt Godel*. Bradford Books.

* Amazon affiliate links

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