In rethinking on this one; whereas perhaps the sooner we deplete our
1e10 kg global cache of 4He the better off for the greater
biodiversity of our planet that’ll need its protective ozone/O3 layer,
even though mother nature has likely been (up till now) contributing
at least ten fold (though possibly a hundred fold) as much 4He to the
atmosphere as us. Our reduction of venting or otherwise not
intentionally wasting 4He should make a tipping-point kind of
measurable difference in closing up those polar ozone holes that
really don’t need any extra lingering or migrating molecules of 4He as
molecular lubrication passing through. In other words, the complex
biodiversity on our world may need its O3 worse than its 4He (not that
there’s anything we can effectively do to restrict the natural
geological diffusion and subsequent loss of helium from deep within).

My deductive thought all along, is why ignore and subsequently waste
such a nifty and versatile element like 4He, not to mention it’s minor
sibling of 3He.

For a little extra argument sake; If there were only 3.154e8 kg being
naturally diffused as leaking away from Earth (10 kg/sec maintaining
our 5.24 ppm atmospheric saturation), and if the originating source of
uranium and thorium were only capable of contributing 10% of that
amount, seems to suggest that such lofty helium that doesn’t bond with
anything (including itself) and is being held captive within our
atmosphere by something more complex than its lack of binding and
molecular specific gravity which isn’t hardly worth squat.

I’m rethinking along the lines of Earth as having been naturally
releasing 3.154e9 kg/year, which amounts to 100 kg/sec that might be
required in order to sustain the 5.24 ppm, because even that amount
works out to an average outflux rate of less than 2e-13 kg/m2/sec. Of
course this would also have to suggest the innards of Earth’s uranium
and thorium cache being of considerably greater volume and mass in
order to keep up with even 10% of that amount (fissions of roughly 100
times greater than previously thought).

Since there is still no direct/objective science on quantifying the
natural plus artificial global loss of helium, is what leaves some of
us guessing and otherwise attempting to deductively connect the dots,
because our mainstream mantra of having been specifying a natural
radiological decay resource of only 3e6 kg/year seems hardly
sufficient if that internal cache of uranium and thorium were the one
and only source for having created all of this lofty helium volume to
begin with. So, either there’s a much greater volume and mass of
uranium and thorium plus a few other elements producing it, or the
innards of our planet has more of those deep geode pockets of its
original creation helium stashed away, just sitting there as leaking
and otherwise waiting for us to tap into.

Keeping in mind that even if the average extracted natural gas volume
of 3.65e12 m3/year (not inclusive of wellhead or refinery flaring,
industry leakage, blowouts or natural escapement) were only 0.1% 4He,
is actually by itself going to represent a hell of a lot (3.65e9 m3/yr
= 6.5e8 kg/yr) of artificially pass-through or vented helium, and
that’s not even accounting for all of the oil and gas wellhead and/or
feedstock losses plus numerous natural geothermal gas vents
continually taking place (mostly under water), whereas a reasonably
conservative estimate might be 3.154e9 kg, and perhaps the upper most
all-inclusive extraction plus all other forms of artificial and
natural escapement of helium plus H2 and O3 being in the ballpark of
3.154e10 kg/yr (1 t/sec). Not that anyone cares how much mass Earth
is losing.

Just for the record; it seems “Big Energy” typically underreports
anything that has fees, tariffs, royalties or penalties associated, is
perhaps a good enough reason why we can’t trust their own numbers as
to the volumes extracted, leaked, blown-out or otherwise consumed and/
or wasted in the process of doing their business and getting their
various products to market. For example, Canada allows the
exploitation and export of negative hydrocarbon energy, which more
than doubles the carbon footprint for consuming of those hydrocarbons
(not to mention their own environment impact that’s purely negative
and left for future generations to resolve and pay for), and BP Alaska
hasn’t been operating terribly far behind that policy (not to mention
their Gulf blowout fiasco that we also get to pay for in more ways
than spendy fuel).

At any rate, eventually our planet should become helium deficient long
before our hydrocarbons run out, and those off-world alternatives will
then become necessary regardless of their added risk, expense or
possibly even much lower cost than anyone could have imagined, because
off-world helium may be only a byproduct for obtaining those much more
valuable elements. At least by then our polar ozone holes should
greatly shrink or possibly vanish, and by way of most scientific
interpretations that would be a very good thing, because with the
ongoing demise of our geomagnetic force field that’s failing us at
-0.1%/year, we’ll probably need all the added O3 protection we can
get.

Problem is, the current educated awareness and market value for this
4He isn’t sufficiently understood or worth enough for the hydrocarbon
industry to gather up and safely store for commercial use. So, for
the moment the vast majority of 4He is getting set free, and of those
using it are not so concerned about protecting and recycling it as
long as the rest of us and future generations are the ones that’ll
always get to pay for everything.

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Mineral explorations and their subsequent exploitation by way of
private groups mining and processing off-world, needs to be given a
green flag by each and every public funded agency that thinks they
alone need to be kept in charge of our global mineral and raw element
markets, especially of those markets dealing in rare-earths and soon
that of 4He and 3He that’ll each become worth all the tea in China as
global reserves are depleted within this half century.

Some elements are just giving us indications of what else is out
there, such as the nearly worthless sodium that’s not a terrestrial
shortage nor all that spendy. In other words, it’s not possible for
one element of metallicity to exist without others showing up. Lunar
sodium at 0.3% should have been a very obvious surface mineral or
element of our Apollo cold-war era, whereas instead it was always the
cloak and dagger job of each nation to systematically FUD and lie and/
or obfuscate/exclude as much data as possible, and otherwise claim as
much bragging rights as possible without spilling any valuable beans
in the process.
http://www.moonminer.com/Lunar_regolith.html

http://meteorites.wustl.edu/lunar/howdoweknow.htm
“Concentrations of the alkali elements (potassium, sodium, rubidium,
and cesium) are 10 to 100 times lower in lunar rocks than terrestrial
rocks.”

And yet our naked moon has to keep giving away a considerable amount
of its sodium, as it gets solar heated, impact vaporized, hit by a
flood of powerful photons and even a little hard-vacuum sublimed, then
highly ionized and continually getting blown away by the solar wind.

What the Boston University helped us to uncover and somewhat quantify
via remote science is the unusual abundance of sodium(Na) lunar
exosphere, of Na that’s entirely derived from the moon.

http://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/19990054436_1999037299.pdf

http://www.asi.org/adb/06/09/04/1999/08/news-19990814.html
“The relatively thin atmosphere of the Moon, as well as that of the
planet Mercury, has been shown to contain measurable amounts of atomic
sodium and potassium vapor. Because these atoms remain in the
atmosphere for only a few hours, they must constantly be resupplied.
The Rutgers physicists undertook experiments to uncover the mechanisms
required for the continuing presence of one of these elements (sodium)
in the atmosphere, as observed over time by other scientists.”

““Based on their experimental results, Yakshinskiy and Madey conclude
that the electron flux or flow from the solar wind is too small to
expel sodium from the lunar surface, "... but the solar photon flux
(the light itself) is more than sufficient. These measurements provide
strong scientific support and rationale for the arguments ... that a
photon-stimulated desorption (replenishment) process plays a major
role in production of the lunar sodium atmosphere."”

In other words, the raw solar illumination which obviously heats up
the physically dark surface of our moon and also contains a great deal
of raw UV, is directly responsible for the continued extraction or
“desorption (replenishment)” of sodium from the moon.

At perhaps 60 Na atoms/cm3 doesn’t sound like all that much until we
start doing the math of what an 9r (15642 km radius) sphere of Na at
averaging only 10 Na/cm3 has to offer. Of course down very close to
the hot surface we’re supposed to accept that less than 70 Na/cm3
exist, even though we could be talking about a thousand Na/cm3
(possibly areas offering as great as 2000 Na/cm3 depending on the
exposed sodium of local terrain).

When hit by a substantial CME is naturally going to kick extra sodium
lose, as well as meteor impacts doing the same, temporarily magnifying
the concentration or population of Na by at least ten to a hundred
fold. Therefore the true average of Na/cm3 is highly variable.

1 Na = 3.818e-26 kg
9r sphere = 1.5e28 cm3
(using 10 Na/cm3) = 3.818e-26 * 10 * 1.5e28 = 5.7e3 kg

Now we should bother to do the math for the Na within its comet like
tail of 900,000 km.

Using an average density of just 6 Na/cm3 and 2.7e29 cm3 as
representing the comet tail volume that’s staring out at 8r and just 8
Na/cm3, fading away to less than 4 Na/cm3 at 9e10 cm = 2.7e29 *
3.818e-26 * 6 = 61.8e3 kg

So, conservatively we got 5.7 t of Na as always surrounding our moon
and 61.8 t within its comet tail = 67.5 tonnes of Na that has to be
replenished every so often (perhaps at least once per lunar month
wouldn’t be unlikely, or 834 t/year). Loss of sodium plus other
gasses as ionized particles (including its helium), could easily put
the total mass loss per year above ten fold Na (8340 tonnes), roughly
more than twice the influx of particles heavy enough to stick with our
moon.

Our NASA currently likes to support a highly conservative 50,000 t/
year as influx that contributes to the mass of Earth. The moon having
13.5 times less surface area and considerably less gravity to hold
onto stuff, should thereby tally as receiving not greater than 3,700
tonnes/year. With this swag in mind, we could have an estimated net
loss of only 4740 tonnes/year from our moon. Personally I believe the
loss of mass is much greater, but I haven’t gotten that far along with
researching into those other exosphere elements that get blown away.

However, since I haven’t actually done all the math on what other than
sodium is going away, this tally of outgoing lunar mass will have to
get revised. Since we still have no valid science platform at the
Earth-moon L1, leaves us with a lot of unanswered science to debate.
Of course an Earth-moon L1 platform of sophisticated science
instruments could have been established for roughly 10% the cost of
one Apollo mission, and having been deployed as of 4+ decades ago.

Should this lunar sodium need to be replenished every some odd lunar
days of 24 hrs and 50 minutes each, is going to get this downright
interesting. For the moment all we know with any absolute certainty,
is that the exosphere of lunar sodium has to get replenished from the
moon itself. Naturally those heavier and generally valuable elements
we call rare-earths have already been gamma spectrometry spotted and
somewhat surface quantified, and many of these are valuable enough to
go after, especially when secondary processed elements like O2, H2O,
4He and 3He are inevitable once ore extractions and their off-world
processing is taking place.

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That captured moon of paramagnetic basalt also has a great deal of
sodium, and with higher solar activity is when the exosphere of
sodium(Na) tends to get extra populated and unavoidably ionized

On May 5, 8:03 am, Richard Harris <***@verizon.net> wrote:
: Last night, as I viewed the full moon at it's closest to the earth
in
: two decades, I saw a distinct lemon-yellow band of light on its
: circumference. The moon was high on the night sky, unobstructed
: by clouds. What is this phenomenon?

Our yellowish moon has an ionized atmosphere of sodium:
It totally surrounds our moon, the most intense near the physically
dark surface and otherwise reaching out to as much as 9r, plus having
a comet like tail of 900,000 km. Near the naked moon it's the most
concentrated and highly ionized. Strong solar activity creates even
more ionized sodium.
Loading Image...
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http://sirius.bu.edu/moontail/#Updates
http://lunarscience.nasa.gov/articles/solar-storms-sandblast-moon/
Loading Image...

That surrounding exosphere cloud of sodium comes directly from the
moon itself, and it's fairly considerable though usually not
detectable by the naked eye or even by the common telescope unless
using a narrow bandpass filter.

Our NASA doesn't like talking about it, perhaps because their Apollo
era hardly noticed any sodium, nor had any of their lunar samples
recovered any significant geological mineral examples of having sodium
that would have accounted for the sputtering process via solar wind.
For the most part, our Apollo era entirely missed this one.

http://sirius.bu.edu/planetary/moon.html
“With the same 0.1-meter telescope used for the Jupiter observations,
we image the faint sodium exosphere of the moon. An occulting mask
blocks light from the moon's surface to reduce scattered light in the
telescope. Near full moon, the scattered light overwhelms the faint
emission from the sodium atoms, so we observe near first or third
quarters or during total lunar eclipses.”

“Sunlight (largely UV)
Likely cause of the production of sodium atoms observed a part of the
lunar "atmosphere" (Medillo, M., and Baumgardner, J., 1995)””

http://pparc.gp.tohoku.ac.jp/english/study/planetary-system/img/exosphere.jpg
http://www.agu.org/pubs/crossref/2006/2005JA011364.shtml
“Atoms in the thin lunar exosphere are liberated from the Moon's
regolith by some combination of sunlight, plasma, and meteorite
impact. We have observed exospheric sodium, a useful tracer species,
on five nights of full Moon in order to test the effect of shielding
the lunar surface from the solar wind plasma by the Earth's
magnetosphere. These observations, conducted under the dark sky
conditions of lunar eclipses, have turned out to be tests of the
differential effects of energetic particle populations that strike the
Moon's surface when it is in the magnetotail. We find that the
brightness of the lunar sodium exosphere at full Moon is correlated
with the Moon's passage through the Earth's magnetotail plasma sheet.
This suggests that omnipresent exospheric sources (sunlight or
micrometeors) are augmented by variable plasma impact sources in the
solar wind and Earth's magnetotail.”

As the solar activity picks up, that sodium portion of the lunar
exosphere should really stand out, and under the right conditions it
could be detected by the naked eye.

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FYI; it’s helium/4He (not so much CFCs) that destroys our protective
ozone(O3). To effectively get rid of O3, simply add a molecular
lubricant, such as an outflux of 4He that doesn’t bind to anything.

The good news, is that within a few years of continued pillaging and
plundering of global resources, our combined natural and artificial
outflux of 4He is going to greatly diminish, whether we like it or
not, and eventually to fill a party balloon with 4He will only cost
$10.

Here’s another good thing about exploiting our moon with its exosphere
only 30,000 He/cm3 of helium, and especially the extremely nearby
planet Venus that seems to have had way more than its fair share of
atmospheric helium, namely 12 ppm (as opposed to our wussy 5.24 ppm
and a hundred fold less atmospheric mass) as having 4He laced within
its extremely thick and dense atmosphere, not to mention whatever’s
spewing from numerous surface geothermal vents and likely held within
internal geode gas pockets that could be easily tapped. The innards
of Venus could be holding 1e15 kg if not 1e16 kg of 4He that’s
currently not worth all that much, although by 2050 this looming
terrestrial shortage of 4He could become quite another issue. The
innards of our moon should also have those usual volumes of 4He from
its uranium and thorium fission plus a few other fission worthy
elements in addition to the cosmic radiation influx as having been
creating 3He, except for the extremely thick, fused and paramagnetic
basalt crust of our moon has been less diffusing or leaking less of
its 4He, and practically none of its 3He that’s tapped in fused basalt
and perhaps carbonado.

Our own terrestrial helium depletion or peak helium era is nearly upon
us, though all we have to do is continually ignore it and it’ll
literally go away. By 2050 the maximum world extraction rate of
helium will supposedly peak at 50000 tonnes(5e7 kg/year), whereas the
current rate of depletion is estimated as 3.6e7 kg/year. However, the
drop-off or cutoff will likely be a whole lot sooner and much steeper
if there’s a ten fold increase in demand, unless it’s discovered that
the geology of our planet that supposedly has only at most 1e10 kg to
spare (of which we’ll be lucky to ever access 10% of that), is holding
out on us.
http://www.roperld.com/science/minerals/Helium.htm
http://www.uskowioniran.com/2011/09/discovery-of-huge-helium-reserves-at.html
“Iran’s Pars Oil and Gas Company (POGC) announced today that it has
discovered the world's biggest helium reserve in its South Pars gas
field. POGC estimated the volume of South Pars helium reserves at 10
billion cubic meters, approximately 25 percent of the world’s known
reserves [Mehr News Agency, 30 September]. The South Pars gas field is
shared by Qatar and Iran. Qatar is already producing some helium. The
US is the world's leading supplier of helium, followed by Algeria.

The world’s annual production of helium is approximately 200 million
cubic meters. The main use of the gas is in cryogenic applications,
particularly in the cooling of superconducting magnets in MRI
scanners. Helium is also the gas of choice to fill airships and
blimps.”
-

If we should manage to locate and capture only 1% of the global 4He
natural cache that’s supposedly worth only 1e10 kg (before it manages
to diffuse or leak away on its own), gives us 1e8 kg from which to
sustain our current draw of 3.6e7 kg/year, and that’s roughly three
years worth. Personally I think Earth will manage to offer
considerably more, as will as the fission produced helium will likely
be reinterpreted as offering something better than ten fold greater
than currently mainstream status-quo specified as merely 3e6 kg/yr.

At least for the moment 4He is relatively cheap, but that’s only
because of a very large surplus of natural gas has most of the 4He in
stored inventory as overflowing and getting bulk vented because of
insufficient storage. However, once that volume gets nearly depleted
from a global demand that has grown by ten fold, is when the limited
resupply is going to allow its price per scf or m3 to literally go
through the roof.

No doubt India also has access to substantial natural gas fields
offering a higher than average percentage of helium, however, if the
global helium demand should increases by ten fold (as it likely will),
and thereby the extraction of 3.6e8 kg/year becoming necessary, could
deplete the vast bulk of everything we know of (1e10 kg) within as
little as 30 years. So, perhaps we’ll have to start accusing India
and Iran’s Pars Oil and Gas Company(POGC) of sponsoring terrorism or
hiding WMD, and/or if nothing else we can always accuse them of
hoarding uranium and thorium reserves for evil extortion reasons of
promoting their own global Islamic/Muslim domination. In other words,
besides the vast wealth of liquid oil and natural gas hydrocarbons
under Islamic/Muslim ownership and control, it seems that they also
have another treasure trove of soon to be extremely valuable helium,
plus their having the necessary uranium and thorium reserves to boot,
means that their future of thorium powered energy that’s relatively
failsafe and cheap is a done deal.

Of course this interpreted volume of commercially extracted 4He
doesn’t even include the natural diffusion as geology leakage taking
place, that’s required in order to sustain the 5.24 ppm of atmospheric
saturation. Perhaps using the modern physics of fusion to
artificially create 4He from hydrogen may arrive just in the nick of
time, but it too will be somewhat spendy because fusion energy is also
the ultimate WMD.

3He is actually good/better for just about everything besides creating
those fusion bombs that our NIF has been working on, including its use
in party balloons. Problems is, unlike the relatively cheap 4He, 3He
is already scarce and spendy as hell because our shielded planet has
hardly any of that element, and thus far we have managed to toss away
the bulk of our 4He laced within natural gas that also includes a
smaller 1e-4 proportion of 3He (no wonder our protective layer of
ozone/O3 has that big gaping hole over either pole).

Unlike the physically dark surface of our naked moon that should be
loaded with 3He, our shielded Earth has relatively little of that
element to spare, plus we're running ourselves out of 4He within the
next three decades or at least by 2050 it could become practically
nonexistent other than whatever internal thorium and uranium are
capable of producing, that’s being suggested as limited to as little
as 3e6 kg/year (roughly 1% of our future needs if 100% of that fission
produced helium could even be captured, though I'd kind of doubt we
could manage to capture .001% before it leaks off and gets blown away
by the solar wind). In other words, those precious elements of 4He
and 3He are literally on their way out, and the rate of their natural
replenishment is not going to be .001% sufficient unless we can manage
to artificially create helium and without that method being too spendy
or otherwise too negative consequential.

Even if the natural rate of 4He replenishment were capable of
sustaining 3e7 kg/year, and we managed to capture 0.1% of it, is only
worth 3e4 kg/year. The LHC needs to circulate nearly 100 tonnes(1e5
kg) of 4He without any backup reserves, of which that one application
alone exceeds the annually produced resource by 33:1, and there’s all
sorts of other commercial, industrial, medical, aerospace,
astrophysics plus other research and retail needs for helium. Shale
gas via explosive fracking and extensive ground water polluting
probably doesn’t contain as much natural helium, and as other nations
catch on and attempt to modernize and equalize their own foreign
exchange disparity, the future demand for this rare element of helium
could easily reach 3.6e8 kg/year (clearly unsustainable once global
stored reserves are depleted).

Helium is by far not the only terrestrial shortage:
A global shortage of diamond could also be resolved off-world. As for
carbonado(aka black diamond), being really nifty for all sorts of
applications besides continuous tether fibers, and being easily
produced in the hard vacuum of space or even upon our physically dark
and paramagnetic moon, in unlimited volume that's easily transported
to/from just about anywhere, should be at least considered as one of
the cheapest raw elements of mostly carbon that can be artificially
obtained and processed into just about anything.

A question I have: Are you and other Oligarch Rothschilds planning on
making us wait until the very last terrestrial tonne of everything of
any value is about to run out? (at which time you ZNRs may have to
fake and/or false-flag us into another war in order to artificially
inflate the global price via hoarding and insider market speculation,
plus otherwise steal the scarce remainder of helium, diamond and heavy
rare element metals from others). Of course, while obtaining off-
world helium(s), undoubtedly there should be many other elements of
extremely valuable rare-earths that will have to also get processed
and put into terrestrial circulation, unless our Oligarchs are
planning on insider speculating and hoarding those as well.

By going off-world, many rare and valuable elements and complex
solutions can be discovered, excavated and/or processed with fewer
social/political or environmental restrictions while on the fly (so to
speak), and efficiently transferred back to Earth or the highest
bidder. Of course that’s not going to happen as long as we keep the
old guard of our Oligarchs in charge, and never bother to look back.

The still unexplained loss of our OCO mission of Earth science
(unusually foiled similar to other previous failures), is perhaps just
another prime example of FUD and how we’re otherwise being kept
uninformed and mislead into believing only whatever our handlers want
us to believe, as history that’s usually configured for making them
look super good and way smarter than the rest of us.

In addition to what our nicely sunlit planet w/moon and others similar
have to offer, those as wandering icy rogue/nomad planets could be
every bit as good or better, such as those lakes under thick
Antarctica ice remain fluid not because of our planet having a sun,
nor having anything to do with our AGW, but only because of the
ongoing 64+ TW of internal heat that’s mostly from a combination of
geophysical modulation plus fission within Earth, plus a certain
amount of gravity tidal modulation that’s keeping our flexible planet
with it’s extremely thin crust a little extra warm from the inside
out, at an average surface bedrock heat loss of perhaps 128 mw/m2.
From the surface, we humans manage to add roughly half again that
amount of thermal energy into everything from the surface on up (still
considerably less than what nature contributes), and of course we have
our sun that’s less than ideally stable, plus our nifty moon that’s
contributing via radiating its own IR of 1220 w/m2, plus contributing
2e20 N of tidal force that’s continually modulating throughout the
whole fluid body of our planet, which may help to explain where some
of the internal heat is coming from besides a core and mantel of
fission that’s responsible for creating the bulk of our helium that
we’re about to run ourselves out of a sufficient annual volume, mostly
because the vast majority of this helium has simply been discarded,
passed through or directly vented.

Of course our modern day K12s and most others are no longer getting
educated as near smart enough to care about any natural or artificial
loss of helium, just like the Oligarchs could care less if all the
natural ice on Earth melted, and ocean levels increased by tens of
meters or whatever extreme weather of storms and/or droughts became
ten fold worse off. I mean to suggest, when these Oligarch
Rothschilds own a fleet of business jets and Mega Yachts plus multiple
villas in addition to several multimillion dollar condos around the
world, is why they really don’t have to worry if any one of those
habitats is inconvenienced or disrupted by extreme weather or should
ever get flooded out because of rising ocean levels, because they are
fully insured or so wealthy that they don’t care if 10% of their
estate holdings get damaged.

On Apr 24, 6:53 pm, 1treePetrifiedForestLane <***@hotmail.com>
wrote:
: well, so, What?
: : I replied;
: : 4He migrates directly through ozone. It doesn't bind, it dilutes
: : or displaces ozone as well as it acts as a molecular lubricant.

The "well, so, What?" is that our government and its faith-based mafia
of Oligarchs that get to operate as our public-funded overlords and
robber barons regardless of whomever we elect or appoint, have been
systematically telling us another pack of lies upon lies, as well as
having been creating and sustaining wars, costing us millions of lives
plus trillions of our hard earned loot, wasting precious decades and
ultimately they seem intent upon keeping us from going off-world until
they've fully exploited this planet and gotten every last drop of
blood and dime out of us.

Obviously that doesn't bother those that never want their white-washed
version of history to ever get investigated and/or forbid ever revised
in order to suit the whole truth and nothing but the truth. Therefore
K12s need to be kept snookered and dumbfounded past the point of no
return.

The really good news, is that by 2050 if not much sooner, those large
gaping holes in our protective ozone layer should start to close up,
because there will have been a sudden and significant reduction of
released helium, along with perhaps 99% of our remaining commercial
inventory of helium getting recycled because it’s just too spendy to
waste, exactly as it should have been as of decades ago and before
having made those polar ozone holes worse than ever.

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