Re: Time to overhaul Newton's Theory of Gravitation? (Forwarded)
- From: "N:dlzc D:aol T:com \(dlzc\)" <dlzc1@xxxxxxx>
- Date: Mon, 12 Nov 2007 21:19:07 -0700
cross-posting to sci.physics.relativity
"Andrew Yee" <ayee@xxxxxxxxxxxxxxxxxxxxxx> wrote in message
news:Pine.LNX.4.30.0711122142160.6535-100000@xxxxxxxxxxxxxxxxxxxxxxxxx
ROYAL ASTRONOMICAL SOCIETY PRESS INFORMATION NOTE
Issued by RAS Press Officer:
Robert Massey
Tel: +44 (0)20 7734 4582
Mobile: +44 (0)794 124 8035
E-mail: rm@xxxxxxxxxx
RAS Web site: http://www.ras.org.uk
CONTACT(s):
Joel Brownstein
Perimeter Institute for Theoretical Physics
31 Caroline Street North
Waterloo
Ontario N2L 2Y5
Canada
Tel: +1 (519) 569-7600 ext. 8084
Fax: +1 (519) 569-7611
Professor John Moffat
Department of Physics and Astronomy
University of Waterloo
Waterloo
Ontario N2L 3G1
Canada
Tel: +1 (519) 569-7600 ext. 6611
Fax: +1 (519) 569-7611
Date: 26 October 2007
Ref.: PN 07/44
Time to overhaul Newton's Theory of Gravitation?
For almost 75 years, astronomers have believed that the
Universe has a
large amount of unseen or 'dark' matter, thought to make up
about
five-sixths of the matter in the cosmos. With the conventional
theory of
gravitation, based on Newton's ideas and refined by Einstein 92
years ago,
dark matter helps to explain the motion of galaxies, and
clusters of
galaxies, on the largest scales.
Now two Canadian researchers at the Perimeter Institute for
Theoretical
Physics suggest that the motion of galaxies in a distant
cluster is more
easily explained by a Modified Gravity (MOG) theory than by the
presence
of dark matter. Graduate student Joel Brownstein and his
supervisor
Professor John Moffat of the University of Waterloo present
their results
in a paper in the 21 November edition of Monthly Notices of the
Royal
Astronomical Society.
The two scientists analysed images of the 'Bullet Cluster' of
galaxies
made using the Hubble Space Telescope, Chandra X-ray and
Spitzer infrared
observatories and the Magellan telescope in Chile. The Bullet
Cluster
consists of two merging clusters of galaxies and lies at a
distance of
over 3 billion light years in the direction of the southern
constellation
of Carina.
This arsenal of instrumentation gave them maps of the 150
million degree
hot gas between the galaxies and show the effect of
gravitational lensing,
where the gravity of an intervening object -- here the Bullet
Cluster --
deflects the path of light emitted by a more distant galaxy.
Previous studies suggested that the Bullet Cluster clearly
demonstrates
the presence of dark matter. But when Brownstein and Moffat
compared the
observed gravitational lensing and distribution of gas with
that predicted
using MOG theory, they found no evidence for this. In other
words, it is
more natural to explain the appearance of this cluster using a
revised
theory of gravitation than by including dark matter.
MOG theory emerges from a generalization of relativity that
eluded even
Einstein. The theory has been developed by Moffat for nearly
thirty years
and is now yielding astronomical and cosmological results. It
has been
used to successfully explain the movement of stars in over 100
galaxies
and the motion of galaxies in more than 100 clusters. MOG
theory may also
explain the apparent anomalous deceleration of the Pioneer 10
and 11 space
probes, launched in the early 1970s and now more than 12000
million km
from the Sun.
The two physicists are enthusiastic about their findings.
Brownstein
comments, "Using Modified Gravity (MOG) theory, the 'normal'
matter in the
Bullet Cluster is enough to account for the observed
gravitational lensing
effect. In time, better observations will lead to higher
resolution
pictures of the systems we are studying. Continuing the search
for and
then analysing other merging clusters of galaxies will help us
decide
whether dark matter or MOG theory offers the best explanation
for the
large scale structure of the Universe."
Professor Moffat adds, "If the multi-billion dollar laboratory
experiments
now underway succeed in directly detecting dark matter, then I
will be
happy to see Einsteinian and Newtonian gravity retained.
However, if dark
matter is not detected and we have to conclude that it does not
exist,
then Einstein and Newtonian gravity must be modified to fit the
extensive
amount of astronomical and cosmological data, such as the
bullet cluster,
that cannot otherwise be explained."
NOTES FOR EDITORS
Brownstein and Moffat's full paper will be 'online early' prior
to
publication in Monthly Notices and can be viewed at
<http://www.blackwell-synergy.com/loi/MNR> from Friday 26
October.
The Royal Astronomical Society (RAS), founded in 1820,
encourages and
promotes the study of astronomy, solar-system science,
geophysics and
closely related branches of science. The RAS organizes
scientific meetings
in Burlington House, its London HQ, and throughout the country,
publishes
international research and review journals, recognizes
outstanding
achievements by the award of medals and prizes, maintains an
extensive
library, supports education through grants and outreach
activities and
represents UK astronomy nationally and internationally. Its
more than 3000
members (Fellows) include scientific researchers in
universities,
observatories and laboratories as well as historians of
astronomy and
others.
IMAGES:
Images can be found at:
http://www.perimeterinstitute.ca/personal/jbrownstein/mog/prediction/index.html
.
- Follow-Ups:
- Re: Time to overhaul Newton's Theory of Gravitation? (Forwarded)
- From: Koobee Wublee
- Re: Time to overhaul Newton's Theory of Gravitation? (Forwarded)
- Prev by Date: Re: where is the muon contracted in only one direction
- Next by Date: Re: The Nanometre Twin
- Previous by thread: The Structure of Atoms as Interpreted by Model Mechanics
- Next by thread: Re: Time to overhaul Newton's Theory of Gravitation? (Forwarded)
- Index(es):
Relevant Pages
|
Loading
