Sunday, December 24, 2017
Saturday, December 23, 2017
Friday, December 22, 2017
Merry Christmas MF's
Peace on earth
good will towards
GIA
I predict the pendulum
is going to
swing
towards the
star trek universe
big time
in 2018
2018 is the year
where whateveryone
knows is true
will be admitted
we are not
alone
Thursday, December 21, 2017
Wednesday, December 20, 2017
Munford and Sons
In the last decade
I can not think
aboot music
that was more
me than
the Sons
And I loved
the sons of
anarchy as
a construct
of the world
we exist
in
and if you
do not find
truth in that
watch game
of thones
we are merely
in the best case
the people beiing
thrown about
in the ariel
ballet
for those of us
on the ground
its all about
the rent
when it exceeds
fify percent of your
take home
congradulations
you are offically'
a slave
Saying goodbye to that regional life
/c(206-1.33333333333333-63.125-21.0416666666667-22.8125)/a17_lat_silver_franklin_camacho_01.jpg)
Yep I am going to go
to a new region
for more hope
as the economy
blows
but I will never
say a bad word
about
the Niagara Region
its all power
and old
people and
that is not
my profile
because
I do not have
a gold plated
pension
plan
that gives
me all access
to Canada
south coast
Tuesday, December 19, 2017
Everthing is differant
Adapt fail got along
no matter
its comming
and the
resource
rich humans
will be
floating
Monday, December 18, 2017
Sunday, December 17, 2017
Life's a Liquid
"A team of physicists in Barcelona has created liquid droplets 100 million times thinner than water that hold themselves together using strange quantum laws.
these bizarre droplets emerged in the strange, microscopic world of a laser lattice — an optical structure used to manipulate quantum objects — in a lab at the Spanish Institut de Ciències Fotòniques, or Institute of Photonic Sciences (ICFO).
The researchers cooled a gas of potassium atoms cooled to minus 459.67 degrees Fahrenheit (minus 273.15 degrees Celsius), close to absolute zero.
That's a state of matter where cold atoms clump together and start to physically overlap. These condensates are interesting because their interactions are dominated by quantum laws, rather than the classical interactions which can explain the behaviour of most large bulks of matter.
When researchers pushed two of these condensates together, they formed droplets, binding together to fill a defined volume. But unlike most liquids, which hold their droplet shapes together through the electromagnetic interactions between molecules, these droplets held their shapes through a process known as "quantum fluctuation."
These new droplets are unique in that quantum fluctuation is the dominant effect holding them in their liquid state. Other "quantum fluids" like liquid helium demonstrate that effect, but also involve much more powerful forces that bind them much more tightly together.
Potassium condensate droplets, however, aren't dominated by those other forces and have very weakly-interacting particles, and therefore spread themselves across much wider spaces — even as they hold their droplet shapes. Compared to similar helium droplets, the authors write, this liquid is two orders of magnitude larger and eight orders of magnitude more dilute. That's a big deal for experimenters, the researchers write; potassium droplets might turn out to much better model quantum liquids for future experiments than helium.
The quantum droplets do have their limits though. If they have too few atoms involved, they collapse, evaporating into the surrounding space. "
Saturday, December 16, 2017
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