With many terrestrial elements, it seems we are already approaching
“Peak Ore”, and for some rare-earths it has already gotten us a little
past peak-ore because, the cost of obtaining such natural elements has
gotten more complex and spendy than artificially creating them or
simply doing without by having to substitute with other composite
alloys. Iridium happens to be one of those rare-earth elements,
whereas carboneous chrondite meteors and asteroids known as C(4), and
this type most likely includes portions of our naked moon because it’s
acting as such a terrific anticathode for gamma, can be rather highly
saturated enough to be worth going after. No doubt asteroid YU55 is a
C(4), so perhaps it’s no wonder they (NASA/DARPA/JPL/ASU and all
others associated) obfuscated by having never bothered to get us any
gamma spectrometry for estimating its density and subsequent mass for
2005-YU55, because they don’t seem to want private enterprise getting
wild ideas that could seriously pay off, big time.
It has long been speculated that “Most significantly 25% of the
material in the asteroid belt as well as Demos and Phobos, the moons
of Mars, are made of this same material”
“THE BEST KEPT SECRET IN THE SOLAR SYSTEM”
http://pw1.netcom.com/~ncoic/meteor.htm
“There is another feature of the C(4). It is 10,000 times richer in
the platinum series metals (platinum, iridium, osmium, gold, silver)
as the richest ores on the earth! The earth was molten long after its
formation. During this period the heavier metals sank to the core
under gravitational influences making them rare on the minable
surface. Because the material in the asteroid belt was never subjected
to gravitational influence these precious metals are homogenous.
Harvesting this God given bonanza would create a paradigm shift in
industry here on earth. Gold would be so abundant that it could be
used for all electrical circuitry. Alloys of enormously hard metals
like osmium and iridium could be used on the wear points of all
industrial equipment for the production of machines that would not
wear out. All of mankind would benefit !! (all except the monopolists
who depend upon creating shortages for their wealth and power).”
“Dr. John Coleman tells of a BILDERBERGER type meeting held in GREAT
BRITAIN in 1968 attended by the lions of world finance including David
Rockefeller and his operatives Henry Kissinger and Zbignew Brezinski.
After a long procession of speakers denouncing the U.S. space program,
the conference chairman concluded with a demand that the U.S. "shut
down its space program" followed by David Rockfeller's assurance that
this would be done. The unparalleled industrial progress that created
APOLLO was interfering with the elitist plans to deindustrialize the
US. Dr. Coleman has not produced the requested minutes of this meeting
but it rings true to me. In 1973 Nixon devastated NASA by cutting the
budget by 2/3 and throwing 2\3 of the scientists out on the street. It
took me 10 years to learn that the fate of the space program that I
was so dedicated to had already been sealed years before I had even
started.”
“An important part of this betrayal was the STRATEGIC DEFENSE
INITIATIVE. This, the most wasteful of all space programs soaked away
funding from the commercial development of space which was its only
purpose.”
http://www.ncoic.com/
http://pw1.netcom.com/~ncoic/index.html
Going off-world for valuable metallicity and even the likes of
carbonado/diamond is just getting a little easier than we’ve been
told, especially when some of these little to large captured asteroids
become temporary moons as orbiting more than sufficiently nearby.
http://www.foxnews.com/scitech/2011/12/21/earth-has-other-moons-astronomer-says/
Unfortunately, it seems our NASA has been systemically colorblind,
therefore whatever deep colors/hues of surface metallicity are not
being made available for our investigative review, such as Vesta by
way of Hubble color and then by way of Dawn is a perfectly good
example of how our NASA can’t seem to cure its own nearsighted
colorblind affliction or dysfunction of such limited dynamic range.
Here’s a typical composite of Hubble and Dawn:
http://dawn.jpl.nasa.gov/multimedia/images/slide1_image.jpg
So there’s simply no telling if we’re looking at sodium, gold,
platinum, thorium, carbonado or any lump of coal, and apparently our
gamma spectrometry science of mapping the metallicity of Vesta simply
isn’t working. Apparently, the closer we get to something of an
asteroid or moon, the brighter its albedo and the less color/hue
saturations exist, as well as anything UV reactive simply doesn’t
exist, even though modern cameras have considerably better dynamic
range of contrast and colors (including IR to UV) than any Kodak color
film could possibly offer.
Perhaps going after such off-world metallicity is actually a very good
thing, not that digging up and/or excavating our way through another
fraction of a percent of our Eden, plus extensive recycling shouldn’t
get us by (in between all the usual environmental compromises, mostly
negative consequences, international and racial/ethnicity conflicts
that usually involve some degree of faith-based policy, and wars often
related to terrestrial metallicity and hydrocarbons derived from the
very existence of such elements). Thus far we’ve processed through
and/or having excavated and sucked dry roughly .000001% of our planet
as is, and that ten billionths of our planet is only worth 60 trillion
tonnes. However, adding in what we’ve intentionally and accidentally
cleared and/or having cultivated and helped eroded to death is perhaps
worth an all-inclusive 6 quadrillion tonnes (.0001% or 6000 trillion
tonnes) thus far, so perhaps we’ve still got a really long ways to go
before ever reaching that dreaded point of no return, of our having to
meticulously sift through 0.1% of Earth in order to squeeze out those
last drops or cubic meters of hydrocarbons plus extracting those
valuable metallicity elements, that which might not even be possible
without our going below our relatively thin crust, is another good
thousand years of considerable disparity and wars upon wars away.
Perhaps this is why the ruling oligarchs and Rothschilds of our planet
could honestly care less about funding or allowing any such public or
private investments on behalf of off-world expeditions or advancing
applied technology towards those sorts of metallicity goals, because
we still have sufficient terrestrial resources plus easily contrived
shortages to exploit as is.
In addition to the bedrock and innards of whatever our moon has to
offer, CME sputtering is essentially the solar wind enhancing the
surface metallicity, by further darkening plus further enrichment of
our moon. However, those ionized sodium and potassium elements as
having sublimed from within the moon, as solar heated and
electrostatic suspended within that extremely tenuous lunar atmosphere
is naturally what those CMEs and regular solar winds can most easily
excavate and abscond with, especially good at removing any hydrogen
and helium.
http://sirius.bu.edu/aeronomy/solarwind.pdf
The sodium metallicity cloud and its comet like tail of lunar derived
sodium doesn’t fully disperse below 5 Na/cm3 until having been blown
nearly 900,000 km, whereas above the atmospheric scale height of 120 ±
42 kilometers is still the tremendous volume and considerable mass of
Na that has to be sustained and/or replenished within all of this
surrounding plus its unavoidably trailing cloud, is hardly
representing an insignificant loss of this Na.
http://www.sciencemag.org/content/241/4866/675.short
“Spectra of the region just above the bright limb of the Moon show
weak emission features that are attributed to resonant scattering of
sunlight from sodium and potassium vapor in the lunar atmosphere. The
maximum omnidirectional emission flux above the bright limb is 3.8 ±
0.4 kilorayleighs for sodium and 1.8 ± 0.4 kiloray-leighs for
potassium. The zenith column densities above the subsolar point are
estimated to be 8 ± 3 x 108 atoms cm-2 for sodium 1.4 ± 0.3 x 108
atoms cm-2 for potassium. Corresponding surface densities are 67 ± 12
atoms cm-3 and 15 ± 3 atoms cm-3, respectively. The scale height for
the sodium atmosphere is 120 ± 42 kilometers, and for potassium 90 ±
20 kilometers, which implies that the effective temperature of the
sodium and potassium is close to the lunar surface temperature. The
sodium density at the south polar region was found to be similar to
that at the subsolar point, indicating wide-spread distribution of
sodium vapor over the lunar surface. The ratio of the density of
sodium to the density of potassium is (6 ± 3) to 1, which is close to
the sodium to potassium ratio in the lunar surface, suggesting that
the atmosphere originates from the vaporization of surface minerals.”
Actually, gold should always be a highly stable lunar element that’s
still going to remain as a very nifty metal that's always in high
demand, because it’s still extremely good for all sorts of terrific
stuff, besides just always looking good it’ll also be kind of hard to
replace with other alloys that are any easier or less spendy to come
by. By rights our physically dark moon should be saturated with its
fair share of gold deposits and otherwise hosting many other valuable
metallicity elements, because any good color image of the physically
dark lunar surface proves that such a terrific assortment of metal
ores do exist, as well as the sodium atmosphere is another dead give
away that our moon has been giving off loads of that metallicity
element for quite some time.
Perhaps the next time we actually walk upon that physically dark and
metallicity saturated moon of ours (no technological sweat according
to our NASA and DARPA Apollo wizards as of 4+ decades ago), that's
unavoidably paramagnetic basalt and highly anticathode worthy, we
should establish some actual interactive science instruments that'll
provide real-time objective science data on demand. There's always a
first time for everything, so why not accomplish our moon and set up
camp, at least using TBMs for going deep inside where it's going to be
perfectly safe and consistently cozy?
We could deploy a lunar qualified version of R2D2 as our LR2D2
telerobotic android geologist scout, having a few mechanical
prospecting tools and science including gamma spectrometry and of
course multiple 100X zoom optical and 16.8e6 pixel imagers that’ll
cover 350 to 1050 nm plus having at least 8 narrow spectrum bandpass
filters or spectrum enhanced saturation channels plus a visual
bandpass limited spectrum filter to work with. Obviously this LR2D2
could be fairly substantial in its volume and mass, powered by a load
of HTP plus solar that’s now capable of 100% efficiency, and otherwise
a small plutonium powered generator, because according to our Apollo
era stipulated that its dusty surface isn’t very deep and traction is
never a problem with such terrific clumping and surface tension to
work with, and those Apollo controlled soft landings haven’t been an
insurmountable fly-by-rocket problem for roughly five decades.
The moon Io is yet another good example of a dynamically active
resource of terrific metallicity that oddly isn’t the least bit
monochromatic according to those Galileo spacecraft images. Even
though its orbit only varies by 3,400 km (a fraction of what our moon
varies 42,840 km) it seems to get tidal modulated enough in places to
more than fry an egg, though on average radiating only 2 w/m2 (roughly
a tenth that of Venus), so there’s no shortages of Io metallicity nor
local energy for processing.
“The scientists have estimated that Io's magma ocean is some 50km (30
miles) thick, and bubbling away at a temperature above 1,200°C. Its
presence under a low-density crust of around 30 to 50km (20 to 30
miles) explains why the moon's volcanoes are dotted all over its
surface, rather than in "localised hotspots" as happens at the
boundaries of Earth's tectonic plates.”
However, if the NWO or OWG is going to become simply a new and
improved force of evil upon evil, whereas only the bully oligarchs and
Rothschilds as mutually competitive robber barons get to decide most
everything, then it's not going to become such a good thing for off-
world metallicity, much less fair and balanced for the other 99.9999%
of us that’ll always get to work hard in order to keep paying for
everything. Perhaps that’s the most important message in those
Georgia Guide Stones, telling us that a maximum of 500 million get to
remain and dominate this planet because that’s all this nearly spent
planet can possibly accommodate as a fully unified world population
without involving social, political and faith-based insurmountable
issues or environmental consequences from excessive human population
and environmental disregard.
I’m always into rethinking, of what little social/political corruption
is left for grabs is kind of the remainders of crumbs within our
mostly public funded cookie jar, because all of those really good
cookies of unpunishable crimes of greed and corruption at the upper
most social/political and faith-based level have already been taken
and consumed by those truly in charge of whomever we elect or appoint,
and clearly some of the most mainstream religion(s) can’t be trusted
to police its own kind. Without some kind of revised future that’ll
have to include off-world resources or else a substantial reduction in
global population, that’s kind of like our terrestrial God being
forever lost, up that fast moving creek without a prayer, and the
longer we wait the greater risk of losing what little we have becomes
a reality.
Perhaps it's past due that we the evil villagers with each of our fist
full of burning sticks should take charge, and if need be storm and
burn down the castles of those evil robber barons oppressing and
misguiding us, because to William Mook and many others, with applied
physics and existing technology this planet of ours can accommodate
billions more without our having to go off-world in seeking greater
riches and/or in further pursuit of even the basics that’ll be
required for sustaining terrestrial life as we know it. Of course the
already rich and powerful could care less, because they honestly think
they’ve got it made no matters what local or global consequences take
place. So, it's kind of the new evil of us village idiots going up
against the old established collective evil(s), and may the best bad
guys win. Of course it’s only the most evil victors that ever get to
interpret and publish their version of history, so that whatever
mistakes or do-overs at public expense can be forgotten and/or
continually blamed on those other evil bad guys that were the losers.
Clearly, it seems only us few good guys of Usenet/newsgroups are the
losers, perhaps because we didn’t get to cheat and obfuscate our way
to the top.
Supposedly, everything about our precious solar system was created at
the exact same time (+/- a few days or at most years), and everything
of metallicity either existed from the terrific molecular/nebula cloud
or was fabricated from those initial start-up reactions and fusions
within our progenitor sun that’s just a little more massive (perhaps
50% greater) than average, because by far the vast majority of stars
seem to be red dwarfs.
So why are those basalt meteorites made of our physically dark moon
(even confirmed as dark and contrasty by LRO) different than the less
metallicity and less paramagnetic basalt rocks of Earth.? And why is
Venus seemingly acting as a newer planet with its higher saturation of
surface thorium and uranium that should nave sunk into the core along
with most other heavy elements?
Because of the vast amount of the nearly empty space between stars
(other than a few wandering/rogue planets, planetoids, their moons and
asteroids), it’s supposedly unlikely for an established solar system
to capture all that much if anything. However, apparently I’m not the
one and only researcher that has recently interpreted the best
available science as to suggesting otherwise.
Considering the range of 1e29 kg to 1e33 kg as star worthy, kinda
makes a lot of stuff count as stars, not to mention those black holes
that either came from something truly big and massive or materialized
from a collective of many massive stars that terminated as a singular
mass. Even brown dwarfs can merge into becoming a red dwarf, so
perhaps we should include those options as well.
Earth-sized worlds (such as Venus) are becoming detectable out to 1000
ly, and there’s no doubt of detecting more of the same further out is
just a matter of tweaking their software and using newer telescopes to
double/triple check. Of course the vast majority of solar systems are
too far away and not going to be sufficiently aligned on edge enough
to even give the best astrophysics/astronomy any shot at detecting
their existence.
In addition to the K-12 mainstream norm of our galaxy hosing several
hundred billion stars, perhaps there’s trillions of those other
smaller stars and by rights we’re naturally talking of allowing for
trillions of perfectly viable planets that by rights should also exist
within our galaxy. In other words, it’s looking as though we have at
the very least 10 times as many red dwarfs as all other stars
combined.
http://www.popsci.com/science/article/2010-12/newly-discovered-cache-red-dwarves-triples-number-known-stars-universe
http://www.dailygalaxy.com/my_weblog/2011/03/there-are-possibly-trillions-of-earths-orbiting-red-dwarf-stars-.html
These many dwarf stars are quantified as something less than half the
mass of our sun, and perhaps most of them are only worth a tenth the
mass. This interpretation doesn’t exclude such red dwarfs from
parenting original planets of their own, and any star that’s half or
less mass than our sun is going to last a very long time, thereby
giving its planet(s) a better chance at evolving complex and even
intelligent other life.
If all the stars we’d thought we’d known of amounted to 5e11, you can
safely bet there’s at least another 5e12 as red dwarfs, and perhaps
there’s yet another ten fold as brown dwarfs or large gas giants with
possibly earth-sized moons, making the all inclusive population of our
galaxy worth 5.55e13 if we’re talking all-inclusive from brown dwarfs
to neutron/quasar and black holes. So it’s not very hard to suggest a
probability of discovering sufficiently Earth like or at least
technically adaptable planets that could easily populate our galaxy at
a few trillion, especially numerous when taking all those wandering/
rogue planets, planetoids and their moons from spent stars as having
turned into white dwarfs that lost planets.
Don’t forget that regular as well as wandering/rogue gas giants as sub-
brown-dwarfs could easily host those Earth-sized moons. Also,
supposedly our very own galaxy manages to reincarnate or give birth to
at least 50 and perhaps near a hundred new stars per year, and if
that’s any linear factor of going back in time, represents for every
billion years might suggest that we have in this one galaxy another 50
to 100 billion new stars with planets to work with, times the number
of billion years old this galaxy is. In other words, there’s
absolutely no shortage of stars nor that of Earth-sized planets to
pick from, and our galaxy mass could easily be worth 1.2e43 kg and the
larger Andromeda galaxy worth perhaps half again that much.
If only 0.1% of those Earth-sized planets managed to originate complex
life that turned into something intelligent (which by the way
shouldn’t have to include radio/microwave communications capability),
doesn’t seem to be nearly so dismal or unlikely as we’re being
informed by our colorblind and observationology dysfunctional peers
that have nothing better to do than topic/author stalk in order to
trash and/or disqualify all outsiders, just like GW Bush, Dick Cheney,
most mainstream faith-based cabals or mafias and naturally Hitler had
to do.
We should always keep asking ourselves; Why bother to look any
further than we have to, especially when the extremely nearby planet
Venus seems to suggest all sorts of possibilities in spite of its
environment not being naked dumbfounded Goldilocks approved.
Fortunately, some of us are more than smart enough to deal with that
geothermally toasty environment, although convincing most others stuck
in mainstream naysay status-quo, is clearly not in the cards.
"A new scientific truth does not triumph by convincing its opponents
and making them see the light, but rather because its opponents
eventually die, and a new generation grows up that is familiar with
it." / Max Planck
Thumbnail images of Venus, including mgn_c115s095_1.gif (225 m/pixel)
http://nssdc.gsfc.nasa.gov/imgcat/thumbnail_pages/venus_thumbnails.html
Lava channels, Lo Shen Valles, Venus from Magellan Cycle 1
http://nssdc.gsfc.nasa.gov/imgcat/html/object_page/mgn_c115s095_1.html
http://nssdc.gsfc.nasa.gov/imgcat/hires/mgn_c115s095_1.gif
“Guth Venus”, at 1:1, then 10x resample/enlargement of the area in
question:
https://picasaweb.google.com/bradguth/BradGuth#5630418595926178146
https://picasaweb.google.com/bradguth/BradGuth#5629579402364691314
Brad Guth / Blog and my Google document pages:
http://groups.google.com/group/guth-usenet?hl=en
http://bradguth.blogspot.com/
http://docs.google.com/View?id=ddsdxhv_0hrm5bdfj