Meet the 4 Newest Elements!

Four of the heaviest elements on the periodic table are finally getting names!

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Sources:
http://iupac.org/iupac-is-naming-the-...
http://www.scientificamerican.com/art...
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http://hyperphysics.phy-astr.gsu.edu/...
http://www.physlink.com/education/ask...
http://prospect.rsc.org/blogs/cw/2012...
http://journals.jps.jp/doi/abs/10.114...
https://www.newscientist.com/article/...
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Images:
https://commons.wikimedia.org/wiki/Fi...
https://commons.wikimedia.org/wiki/Fi...
https://commons.wikimedia.org/wiki/Fi...
https://commons.wikimedia.org/wiki/Fi...

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Closed Caption:

I’m gonna ask you to go to your bookshelf,
and take out your old chemistry textbook.
If you don’t have one of those somewhere,
in your life, I feel sorry for you, because
everyone should have at least one Chemistry
textbook in their life.
But assuming you do, open it up and take a
look at the periodic table of elements. It’s
probably on the inside cover.
See that?
It is no longer accurate.
Totally outdated.
Now, you have to go buy yourself a new $700
textbook because the periodic table of elements
has just changed … again!
Last Wednesday, the final four elements on
the seventh row of the periodic table – the
ones with the atomic numbers 113, 115, 117,
and 118 – were finally given names.
Depending on how old your textbook is, those
elements either don’t have names, or aren’t
there at all.
But – hold up – the periodic table isn’t
finished yet!
It took years to create these latest elements,
and now scientists have their sights set on
creating more new super-heavy elements in
row 8, with atomic numbers 119 and above.
But … no one knows how they’re gonna manage
to do that.
To create the four latest elements, scientists
had to smash lighter elements together using
huge instruments like particle accelerators.
And it can take millions of collisions to
create just a single atom of a new element.
But the thing is, once an atomic nucleus reaches
a certain size – like anything bigger than
uranium, with an atomic number of 92 – the
atom becomes unstable.
That’s because the forces that are holding
all the neutrons and protons of the nucleus
together aren’t strong enough to hold them
together over longer distances, when there
are more particles.
So bigger elements are also more unstable,
and they tend to decay, or break apart into
other atoms with smaller nuclei, in just fractions
of a second.
So, in order to prove that they’ve created
one of these new, super-heavy elements, scientists
have to collect evidence of this decay.
One way they do this is to record the radiation
that’s released as a new element breaks down.
This radiation is often released as a series
of alpha particles, which are essentially
helium nuclei, with 2 protons and 2 neutrons.
Since each alpha particle has an atomic mass
of 4, scientists can basically measure how
many particles were emitted, and work backward
to figure out how big the atom was that released all of them.
Plus, the bigger the nucleus, the more energy
there is in each of the emitted alpha particles
– which the researchers can also measure.
After all that, once there’s enough evidence
that a new element has been created, the element
gets the stamp of approval of the International
Union of Pure and Applied Chemistry – the
official entity that gets to decide these
things.
Then the IUPAC lets the scientists who made
the discovery pick a name.
And the rules say that they can use any word
from a myth, a mineral, a place, a property
of the element, or a scientist.
Kinda like Mad-Libs for chemists.
So let’s start with the first newly named
element: element 113, now known as Nihonium.
It’s named after the Japanese word Nihon,
which means “Land of the Rising Sun,”
a reference to the country of Japan.
This discovery was the first to be made by
an Asian country, and is attributed to the
Japanese research center that used a particle
accelerator to bombard a bunch of bismuth
– with atomic number 83 – with a beam
of zinc ions – with atomic number 30.
Next up are elements 115 and 117, which were
made in collaboration between labs in Dubna,
Russia, and California and Tennessee in the
U.S.
Element 115 is now called Moscovium, to honor
the city of Moscow and the team of Russian
scientists that first created the element
in 2003.
The team smashed atoms of calcium – with
atomic number 20 – into a sheet of americium
– with atomic number 95 – and other labs
around the world repeated their experiments
over the next decade to confirm its existence.
As for element 117, its proposed name is Tennessine
for all the labs in Tennessee that worked
on this and other super-heavy elements.
Tennessine is the most recently discovered
element, first created in 2010 by shooting
calcium at another synthetic element – berkelium,
with atomic number 97.
And the last new element, 118, will be named
Oganesson – to honor Yuri Oganessian, the
nuclear physicist who leads the Russian research
team that helped discover several super-heavy
elements, including this one.
Element 118 was first synthesized around 2002,
and again around 2005, by bombarding californium
– with atomic number 98 – with calcium.
So, what’s next?
Well, element 119 obviously.
But, obviously, no one has succeeded in creating
an atom that big yet!
Some researchers say that creating elements
past the seventh row of the periodic table
is gonna be tricky, because we’re reaching
the limit of what our particle accelerators
and measurement devices can do.
We’re going to have to learn how to stabilize,
manipulate, and collide bigger atoms before
we can figure out how big the periodic table
can get.
So, probably don’t toss that old chemistry
textbook.
It’s just going to need to be updated someday...
probably…
If we keep working hard... being cool science
people.
We humans have a lot more to learn.
Thanks for watching this episode of SciShow
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