Re: Planet X: TUNGUSKA as Example
>>> Evidence, please. Where is the seismological data?
>
> Insufficient.
The site I referred you to contains most available data on the event.
Observational data is all your going to get from an event that
happened 100 years ago. You asked for evidence, you got it.
BTW there is insufficient physical evidence of a meteor or
meteor crater to support the asteroid theory.
> Large pockets of methane gas do not form in the atmosphere,
1) Note: Potentially hazardous pockets of methane gas do form in
the atmosphere. The gas usually collects in confined spaces.
a) http://volcanoes.usgs.gov/Products/Pglossary/methane.html
Methane explosion
Sudden explosions of methane gas occur frequently near the
edges of active lava flows. Methane gas is generated when
vegetation is covered and heated by molten lava. The explosive
gas travels beneath the ground through cracks and fills abandoned
lava tubes for long distances around the margins of the flow.
Methane gas explosions have occurred at least 100 m from the
leading edge of a flow, blasting rocks and debris in all
directions...Illustration showing methane gas explosion
occurring above an old empty lava tube. Cracks, fractures, and
tubes in older flows beneath an active lava flow (red) serve
to an explosion.
b) Methane gas migration can be a potential problem at many of
Missouri's older landfills. Landfills constructed under more
recent permit requirements must include a system for collection
and ventilation of gases. "DNR has inspected nearby buildings
for gas accumulations," said Jim Hull, director of DNR's Solid
Waste Management Program. "So far, no evidence of gas has been
found, but alarms have been installed in those buildings." Gas
migration is not a problem for motorists passing a landfill.
Methane gas is not a contaminant for groundwater or surface
water and is only dangerous when it collects to explosive
levels in a building or basement.
http://www.epa.state.il.us/environmental-progress/v24/n2/methane-gas.html
Methane Gas Buildups Force Residents From Homes
Methane gas blamed for duplex explosion after pilot ignited
2) Large pockets of Methane ( usually methane hydrates ) are known to occur
both under the ocean and in pockets under land.
http://marine.usgs.gov/fact-sheets/gas-hydrates/title.html
Gas hydrates occur abundantly in nature, both in Arctic
regions and in marine sediments. Gas hydrate is a crystalline
solid consisting of gas molecules, usually methane, each
surrounded by a cage of water molecules. It looks very much
like water ice. Methane hydrate is stable in ocean floor sediments
at water depths greater than 300 meters, and where it occurs, it
is known to cement loose sediments in a surface layer several
hundred meters thick....
A pair of relatively small areas, each about the size of the
State of Rhode Island, shows intense concentrations of gas hydrates.
USGS scientists estimate that these areas contain more than 1,300
trillion cubic feet of methane gas, an amount representing more
than 70 times the 1989 gas consumption of the United States....
Methane bound in hydrates amounts to approximately 3,000 times
the volume of methane in the atmosphere. There is insufficient
information to judge what geological processes might most affect
the stability of hydrates in sediments and the possible release
of methane into the atmosphere. Methane released as a result of
landslides caused by a sea-level fall would warm the Earth, as
would methane released from gas hydrates in Arctic sediments as
they become warmed during a sea-level rise.
> but the pattern indicates an atmospheric blast, not a ground blast.
2.2 THE FOREST FALL
The Tunguska spacebody explosion stimulation undertaken by
Victor Korobeinikov, corresponding member of the Russian Academy
of Sciences, with co-workers at the Academy's Computer Center
has shown the internal energy of the spacebody to be commensurate
with its kinetic energy to produce the existent forest fall [6].
In plain language, this means that the Tunguska meteorite had to
be an enormous block of super-explosive! Moreover, it's possible
to demonstrate that the explosion of the hypothetical Tunguska
body must be practically completely due to its internal energy! It's
because the shape of the treefall reveals the presence of a
significant spherical component of the air-shock wave. But due
to the law of a conservation of a momentum, the explosion due to
a kinetic energy don't produce a spherical air-shock wave (a total
momentum of a spherical air-shock wave is zero, while the total
momentum of the bolide's generated air-shock waves is qual to the
momentum of the disintegrating meteorite). The absence of the
spherical component is clearly seen on Fig.4 of work [7]. In there
the air-shock wave of the "Tunguska meteorite" ( the latter is at 3
km/s speed, i.e. practically already transferred all his momentum
to air-shock waves) is as must be - the conical one, which can't
produce the shape of the Tunguska forest fall!
Recently published detailed calculations of the hypothesized
"Tunguska space body" completely confirm the idea about the conical
shock wave. Thus in [MATEMATICHESKOE MODELIROVANIE, 1999, v.11,
No.10, p.49 (in Russ.) ] an attempt was made to model disintegration
of a comet with diameter 60 meters, speed 20 km/s, inclination of
a trajectory 45 degrees (imitating Tunguska). In the article initial
height of the comet disintergation was evaluated as 21 km (in my
opinion too low). They model the situation, as if the comet evaporates
in this point at once. Then they calculated how the debris (gas)
cloud moves farther to the ground.
Their results are very remarkable. First, they got (as I stated
for a long time) that the air-shock wave produced by the moving
cloud is conical one, but not a spherical one.
But their another result is possibly even more important. They
got the following data of the air-shock wave just before reaching
the ground (at 1.7 km height): speed 3.5 km/s; typical transverse
dimension - 2 km, pressure - 40 bars. And behind the air-shock
wave there is the debris cloud. nfortunately, no data is given on
the cloud's details, but a little bit higher, at height 5 km it
has speed 10-11 km/s, density 2.5 kg/(m^3); temperature:
7000-8000 K. And such giant plasma column is to hit the ground
(a forest) at great speed!...
Here I just want to attract attention that in reality many groups
of trees survived in epicenter, and moreover even some single
standing in open places trees have no signs of burns!...
The researcher of the Tunguska forest fall V. Fast writes [8]
that the shape of the air-shock wave front has been reconstructed
from the field of mean directions of the tree-fall. In order to
get a closed front, he had to use a field of directions forming an
angle of about 87.5 degrees with the mean directions of the
tree-fall, but not orthogonal to it. So the field of the mean
directions of the tree-fall is vortex one.
In other words, the fallen trees near the epicenter were rotated
from their radial (from the epicenter) position several degrees
clockwise in average. But how the meteorite explosion could produce
such vortex air-shock wave? Such air-shock wave must transfer a
large torque. The evaluation by the author estimate it in order
of 100-1000 billions of Newton*kilometre! The meteorite explosion
couldn't produce it.
Another puzzle for the meteorite interpretation is the area of
the forest fall on the ridge Chuvar (23 km, 279), which according
to the local Evenks have formed the same morning as the general
(Kulikovskii) one. It was discovered by the 1959 expedition.
Its square is 30-40 sq. km. and the trees damage was found to occur
in about 1908. The peculiarity of that forest fall is that trees
were uprooted with their tops to the east (i.e. in the opposite of
what expected from the meteorite fall direction). So the supporters
of the meteorite fall prefer not to discuss it, or at least, talk
just about accidental coincidence.
JD) No argument the blast occured above the ground (in the atmosphere)
> Furthermore, I'd like to see a seismometer output, not an "observer
> report".
1) There were not a lot of seismic stations in 1908 especially in Siberia,
so don't expect to find a "seismometer output". Although I understand
Irkursk (sp) had one.
2) Those that propose an asteroid or comet strike are also basing their
theory on " observer reports".
> Observers can see all sorts of things, like UFOs, and "diffuse
> objects" near Orion.
And observers look through telescopes and conjecture all the answers to our
universes mysteries.
Observational data is not relevant ??? Hmmm.
JD
