Dark Matter, ’Hydrogen in Some Hard-to-Trace Form’
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace form.""
http://newswire.ascribe.org/cgi-bin/behold.pl?ascribeid=20070529.041621&time=07%2053%20PDT&year=2007&public=0
"Tue May 29 07:53:33 2007 Pacific Time
Science Magazine's Dark Matter, 'Hydrogen in Some Hard-to-Trace Form', Opens Door to Relativistic-Proton Dark Matter
LOS ALTOS HILLS, Calif., May 29 (AScribe Newswire) -- The scientific paper, ''Missing Mass in Collisional Debris from Galaxies'' in the May 25 issue of Science Magazine is significant in that it questions the 23-year-old mainstream Cold Dark Matter (CDM) theory, and it also opens the door of scientific acceptance to the competing five-year-old relativistic-proton dark matter cosmology.
The researchers' conclusion, a departure from mainstream theory, reads: "it more likely indicates that a substantial amount of dark matter resides within the disks of spiral galaxies. The most natural candidate is molecular hydrogen in some hard-to-trace
