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Smallest Black Hole Ever Discovered Has Amazing Tidal Force
ScienceDaily (Apr. 1, 2008) �
Using a new technique, two NASA scientists have identified the lightest known black hole. With a mass only about 3.8 times
greater than our Sun and a diameter of only 15 miles, the black hole lies very close to the minimum size predicted for black
holes that originate from dying stars.
In this top-down illustration of a black hole and
its surrounding disk, gas spiraling toward the black hole piles up just outside it, creating a traffic jam. The traffic jam
is closer in for smaller black holes, so X-rays are emitted on a shorter timescale. (Credit: NASA)
Tony B.:
An excellent story Hossein and one which can be elaborated upon a little.
As can be read below, the crucial limit between neutron-Star and Black Hole threshold
is thought to be in a range between 1.7 and 2.7 solar masses. Let us call this factor T.
Quote: "Below some unknown critical threshold, a dying star should
produce a neutron star instead of a black hole. Astronomers think the boundary between black holes and neutron stars lies
somewhere between 1.7 and 2.7 solar masses. Knowing this dividing line is important for fundamental physics, because it will
tell scientists about the behavior of matter when it is scrunched into conditions of extraordinarily high density."
As I have often posted on the relevance of a Planck-Scale gravitational Constant
Go=1/k=1.11x10^-10 G-units, one can use the parameters of QR to specify this
parameter more precisely.
Using the Schwarzschild metric with the SI-lab measured G=6.674x10^-11
G-units then gives the following value for T.
2GoMCH/c^2=2G(T.MSun)/c^2
for T=Go.MCH/GMSun =2.497..
and for the Chandrasekhar Mass as 1.5MSun=3x10-^30 kg as a fundamental QR parameter.
This value then would also allow for a better calibration of the dark matter postulated
haloes responsible for the anomalous rotation curves for the outer regions of galaxies. Those rotation curves would of course
readjust using the higher G-value as postulated by QR as a partial confirmation of the MOND proposals of Mordehai Milgrom.
Tony B.
"This black hole is really pushing the limits. For many years astronomers have wanted
to know the smallest possible size of a black hole, and this little guy is a big step toward answering that question," says
lead author Nikolai Shaposhnikov of NASA's Goddard Space Flight Center in Greenbelt, Md.
The tiny black hole resides in a Milky Way Galaxy binary system known as XTE J1650-500,
named for its sky coordinates in the southern constellation Ara. NASA's Rossi X-ray Timing Explorer (RXTE) satellite discovered
the system in 2001. Astronomers realized soon after J1650's discovery that it harbors a normal star and a relatively lightweight
black hole. But the black hole’s mass had never been measured to high precision.
Shaposhnikov and his Goddard colleague Lev Titarchuk presented their results on Monday,
March 31, at the American Astronomical Society High-Energy Astrophysics Division meeting in Los Angeles, Calif. Titarchuk
also works at George Mason University in Fairfax, Va., and the US Naval Research Laboratory in Washington, DC.
The method used by Shaposhnikov and Titarchuk has been described in several papers in
the Astrophysical Journal. It uses a relationship between black holes and the inner part of their surrounding disks, where
gas spirals inward before making the fatal plunge. When the feeding frenzy reaches a moderate rate, hot gas piles up near
the black hole and radiates a torrent of X-rays. The X-ray intensity varies in a pattern that repeats itself over a nearly
regular interval. This signal is called a quasi-periodic oscillation, or QPO.
Astronomers have long suspected that a QPO's frequency depends on the black hole's mass.
In 1998, Titarchuk realized that the congestion zone lies close in for small black holes, so the QPO clock ticks quickly.
As black holes increase in mass, the congestion zone is pushed farther out, so the QPO clock ticks slower and slower. To measure
the black hole masses, Shaposhnikov and Titarchuk use archival data from RXTE, which has made exquisitely precise measurements
of QPO frequencies in at least 15 black holes.
Last year, Shaposhnikov and Titarchuk applied their QPO method to three black holes
whose masses had been measured by other techniques. In their new paper, they extend their result to seven other black holes,
three of which have well-determined masses. "In every case, our measurement agrees with the other methods," says Titarchuk.
"We know our technique works because it has passed every test with flying colors."
When Shaposhnikov and Titarchuk applied their method to XTE J1650-500, they calculated
a mass of 3.8 Suns, with a margin of uncertainty of only half a Sun. This value is well below the previous black hole record
holder with a reliable mass measurement, GRO 1655-40, which tips the scales at about 6.3 Suns.
Below some unknown critical threshold, a dying star should produce a neutron star instead
of a black hole. Astronomers think the boundary between black holes and neutron stars lies somewhere between 1.7 and 2.7 solar
masses. Knowing this dividing line is important for fundamental physics, because it will tell scientists about the behavior
of matter when it is scrunched into conditions of extraordinarily high density.
Despite the diminutive size of this new record holder, future space travelers had better
beware. Smaller black holes like the one in J1650 exert stronger tidal forces than the much larger black holes found in the
centers of galaxies, which make the little guys more dangerous to approach. "If you ventured too close to J1650's black hole,
its gravity would tidally stretch your body into a strand of spaghetti," says Shaposhnikov.
Shaposhnikov adds that RXTE is the only instrument that can make the high-precision
timing observations necessary for this line of research. "RXTE is absolutely crucial for these black hole mass measurements,"
he says.
Adapted from materials provided by NASA/Goddard Space Flight Center.
Source
ScienceDaily
ScienceDaily (Mar. 26, 2008) — The date of March 19, 2008 marked the brightest
ever cosmic explosion observed from the Earth. The outburst denoted as GRB 080319B was probably the death of a massive star
leading to the creation of a black hole. For the first time the birth of a black hole have been filmed. Cameras of the "Pi
of the Sky" project recorded this remarkable event with 4 minutes sequence of 10 seconds long images. In almost 20 seconds
the object became so bright that it could be visible with the naked eye. Then it begun fading and in 4 minutes it became 100
times fainter. At that time the observation was taken over by larger telescopes
Yes, a dramatic event in both observation and analysis (still ongoing). The following link
describes technical details.
Now my thoughts on the matter.
Using the reference above, one can ascertain the energy output of the GammaRayBurster on page
7; 3.Analysis; 3.1 High Energy Properties.
The rest-frame isotropic energy release is stated as 1.3x10^54 erg/second,
which are 1.3x10^47 Joules/s.
Now any informed textbook on cosmology will state a Chandrasekhar limiting mass for electron
degeneracy, meaning, that atomic configurations become untenable in Neutron stars, consisting of neutronic (ylem) matter with
subatomic nuclear densities.
This ChandraMass is about 1.5 solar masses as 3x10^30 kg.
Next the interesting point. Star masses exceeding 3 solar masses are then said to bypass the
neutron star (as supernova remnant say) stage and collapse the star into a Black Hole, characterised by the Schwarzschild
curvature radius 2GM/c^2.
Substituting the ChandraMass (MC) into the Schwarzschild metric gives
a limiting curvature radius for the Neutron Star-Black Hole transition.
The limiting energy is EC=MC.c^2~2.7x10^47 Joules, which is about twice the restframed isotropic energy release of GRB 080319B. Ergo the statement
of the extraordinary event as the most luminous GRB ever observed relates to a limiting energy boundary for the said black
hole transitions.
The most significant difference between black holes and neutron stars is their temperature. Neutron
Stars are very hot and black holes are very cold.
Hawkings black hole Mass-Temperature modulus is MT=constant=Planck-Mass.Planck-Temperature/2=hc^3/(4Pi.Gk)~9x10^23 kg.K and for a minimum Planck-Oscillator of zpe hf/2.
The Jeans-Radius for mass-independent neutron stars is calculated in equating the gravitational
inward pressure with the outward thermal radiation pressure and as Rylem=RJ=Sqrt(kT.Re^3/Gmn^2) and where now mn is a neutron mass and
Re is the classical electron radius as the size of neutron interaction.
So what happened in regards to GRB 080319B?
A very hot and/or massive supergiant star of many solar masses collapsed past the neutron
star level into a Black Hole converting its thermal 'ylemic' energy into radiation, which was observed as E=kT->E=mc^2->E=hf.
Ordinarily, it are the outer layered materials of a supergiant star, which are ejected from the
surface of such a gravitational collapse with a remnant of the neutron star characteristic scale left behind as say a pulsar
in supernovas.
Then the neutron star remnant still carries much of the thermal energy as a function of its Jeans-Radius.
A typical neutron star temperature for radius 10 km would be so 37 Billion Kelvin. For the remnant
and very cold Black Hole, the thermal energy is transmuted into the grb and quasar scenarios with luminous output from small
cross-secional areas. It was so the transformation of a 'potential neutron star' into radiation, which resulted in the 'most
liuminous grb' ever seen on the spring eqinox 2008 as a calendrical centenary event and coinciding with the rebirth of Arthur
C. Clarke's Space Odyssee.
{Aside:
Tony B. aka Tony Berman-seder commenting on the centennial coincidence of the Christian Good Friday
falling
onto the Spring Equinox, also linked to the orginal passover of the Hebrews.
The ORDER of MAN im ERBE (inheritance) aka
the starseed of Abraham.
Tony B.
Passover Seder
From Wikipedia, the free encyclopedia
Table set for the Passover Seder
The 'Passover Seder' (Hebrew: סֵדֶר, seðɛɾ,
"order", "arrangement") is a Jewish ritual feast held on the first night of the Jewish holiday of Passover (the 15th day of Hebrew month of Nisan). Outside of Israel, the Seder is held twice, on the first and second nights of Passover (the 15th and 16th
days of Nisan). According to the Gregorian calendar, the holiday usually comes out in April. Families gather around the table on the
night of Passover to read the Haggadah, the story of the Israelite exodus from Egypt.
-
The calculations for the date of Easter are somewhat complicated. In the Western Church,
Easter has not fallen on the earliest of the 35 possible dates, March 22, since 1818, and will not do so again until 2285. It will, however, fall on March 23 in 2008, but will not do so again until 2160. Easter last fell on the latest possible date, April 25, in 1943 and will next fall on that date in 2038. However, it will fall on April 24, just one day before this latest possible date, in 2011.
The cycle of Easter dates repeats after exactly
5,700,000 years, with April 19 being the most common date, happening 220,400 times, or 3.9% compared to a mean for all dates
of 162,857 times, or 2.9%.
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FYI.
The occurrence of Easter Sunday (Gregorian) to coincide the
ecclestial spring equinox of March 21st with Good Friday is a little less than 1% in 5.7 Million years. This is about once
in anyones lifetime.
Easter 2008 then maps Easter 1913 (just before the outbreak of WW1) and will
map Easter 2160.
PS.: (One of many possible semantics giving semiotik indicators).
An exact Conjunction
between Venus and Mercury in Pisces (0 degrees) at about 10 degrees conjunct at 9 degrees to Uranus, ruler of Aquarius.
{Venus
and Mercury, always close to the Sun of the Self of Being dance with each other and join in Flirtation, Agape and Communications}.
A
Grand Cardinal Cross with Aries Sun opposite Libra Moon and Capricorn Pluto (paternal) opposite Cancerian Mars (maternal).
So
square between personal id (sun and moon) and cosmic parental 'houses' in transformation (Scorpio rulership of both Pluto
and Mars in detriment of the parental sectors of family and work/education.
{The grand Cardinality of Identity/Ego/Self-Family/Home/Mother-Partnership/Greater
ID-Work/Away/Father manifests under the auspices of the great transformer in both longterm (Pluto) and shortterm (Mars)
aspects}.
A retrograde Saturn in Virgo opposite the Mercury/Venus conjunction (7 degrees).
{Pedantic and orderly
work and 'doing things as usual' just doesn't seem to work anymore, even if the sense of work is softened by love and playfulness}.
A
Capricornian Jupiter opposite Mars in Cancer (13 degrees).
{A work-and task oriented paternity is in conflict with a family-oriented
activity from a maternalised impulsivity. Are the boy and the girl mothered too much?}.
Jupiter in Capricorn
sextile to Uranus in Pisces (1 degree) and as midpoint for an Aquarian triple-conjunction between Chiron, Neptune and the
Saros-Dragon-Northern-(Head/Ascending)Node (3-7 degrees).
{Thunderbolts from the father to the son in Uranus=Father
Sky to Zeus=Jupiter across the domain of the Aquarian revolution brings both healing (Chiron) of the centaur (Sagittarius/Jupiter),
destruction by the trident (Neptune) and the sensitivity of the new dispensation of the Fishes for the completion of
the Dragon-Node of 18 years duration.
The Node of the Dragon in Scorpio is ruled by the Libran balance (Northern Ascending
Head and Southern Descending Tail) and one can trace the Saros in the eclipses of 223 lunations or 6585.32 days being
almost 19 eclipse years of 6585.78 days.
So assigning a Scorpio coordinate of 25.36 degrees we can trace Easter Equinox
1957 (April 21st at 20 degrees) to the Christmas Solstice 1975 (December 25th at 21 degrees) to the Summer Solstice 1994
(June 22nd at 23 degrees) to the Winter Solstice 2012 (December 21st at 26 degrees).
And the Geminian Venus Transit
of June 8th, 2004 repeats on June 6th 2012, with a total solar eclipse on November 13th as Saros Cycle 133}.
Then
a Chironic orbit as the 'Wounded Healer' of so 51 years and beginning when the 'Dragon's Head is in Scorpio' completes at
Easter 2008 for a coordinate of 27 degrees 32.
This reverses about May 23rd, 1959 for the forwards sense and reversing
in MidJune again in a matching of the coordinates, to exit at that coordinate about February 18th, 1960, before reversing
once more about October 21st to exit November 23rd and the point of Ophiuchus as the 13th starsign of the Serpent-Tamer and
the transit of Scorpio into Sagittarius the guardian of the centaur.
The first time Chiron entered Aquarius was 24th January
1955 and his exit was about 15th January 1961 for an approximate sojourn of 6 years.
Taking the 'oscillating'
nature of the Chironic orbit into account and adding 51 years to this exit agains indicates the year 2012 from 1961 to 2012}}.
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