From fire travelling over water to deadly
heat rays, here are 10 Advanced Ancient Technologies
we Still Can’t Replicate Today…..
10.
Damascus Steel
Damascus steel refers to two different types
of iron-based materials that can be identified
by the watery pattern on the surface that
is produced by the controlled manipulation
of the iron and steel.
It originated in India and the Middle East,
and was first known to the Europeans in the
3rd century through trading with Damascus.
What was noticeable about this method of making
steel, and therefore blades for swords, was
that it was much stronger and more flexible
than traditional iron.
Those who wielded a Damascus steel sword were
much feared, because it was quite a mighty
weapon.
While, today, there are production processes
that make steel far stronger than Damascus
steel, it was still ahead of its time and
practically impossible to replicate today.
It was made by adding precise amounts of other
compounds into the steel as it was being hammered,
and these became part of the molecular structure
of the substance.
It was a perfected technique, and one that
is simply impossible to reproduce without
the know-how of those who invented it in the
first place.
9.
Ferlite Watch
In 1912 a discovery was made in a London cellar
that would become known as the Cheapside Hoard.
It’s the largest collection ever found of
Elizabethan and Jacobean Jewellery!
Full of gemstones, necklaces, rings, and cameos,
everything deserves to be admired.
The gemstones come from all over the world
and it shows technical skills and cutting
styles that jewelers today still don’t know
how to replicate since they were passed down
from generation to generation.
One item in particular really stands out-
the Ferlite watch, named after the jeweler
who created it.
It’s so meticulously crafted that it had
a calendar, an alarm, and scrolling decoration.
Forensic analysis of the watch has shown that
incredibly advanced technologies were used
to create all of the components.
Experts are calling it the “ipod of its
day”!
Some of the tech includes the ability to apply
extremely thin films of metal to objects,
with more precision than we can do today with
solar cells and electronic devices.
Researchers from Birmingham City University
scanned the watch in detail and recreated
the pieces using a 3D printer.
Even though we now have the pieces, the race
is now on to try and learn how it was actually
made, because it could improve manufacturing
processes and reduce the amount of raw materials
needed to produce electronic equipment, and
also help to preserve artefacts that have
worn away over time.
Thanks to 3-D printing, the Museum of London
now offers visitors the chance to handle this
16th century gadget!
(The copy, clearly not the original!)
8.
Roman Concrete
The Romans built a lot- whether it was roads,
statues, or grand buildings- but perhaps the
most impressive thing about the structures
that they made is the fact that the concrete
still holds together today, more than 1,500
years after it was mixed.
This is far longer than modern versions of
concrete last, and no one’s entirely sure
how they were able to do this!
What was the secret recipe??
Many attempts have been made to try and determine
the ingredients that they used.
It seems to be a combination of volcanic ash,
calcium oxide, seawater, and lumps of volcanic
rock, as well as leftover rubble.
It was even used to build gigantic structures
like piers and harbours, and actually became
stronger over time.
This is the key to the success of the concrete.
Scientists believe that there are rare elements
within it that crystallize when water seeps
in and begins to erode cracks, making it tougher.
By contrast, today’s concrete is designed
to stay unchanged after it hardens, but the
Romans have shown that there is a better way.
Further research is needed to understand exactly
why it works in the way it does, but if the
precise list of ingredients can be determined,
it could change the face of construction forever.
Buildings could be more resistant and more
beautiful!
7.
Greek Fire
Developed in the year 672, Greek fire was
used during Naval battles by the Byzantine
empire to set fire to enemy ships.
The liquid burned at extremely high temperatures,
and by all accounts would even continue to
burn when it fell onto the water.
Pretty terrifying and dangerous stuff!!
It was used all the way through to the 12th
century, although the formula is thought to
have changed over this time, until it was
replaced by other battlefield weaponry.
There are a number of descriptions of it being
used, but it was a closely guarded secret
by the empire because of its ability to turn
the tide of battle.
This meant that only a select few knew how
to make it, and their secrets went with them
to the grave.
It’s thought that the substance contained
quicklime, which would allow it to burn on
water, along with a combination of ingredients
including saltpeter, which was an early form
of gunpowder.
It might also have contained petroleum to
allow it to continue to burn, but still to
this day a similar substance hasn’t been
recreated.
Of course it wouldn’t have the same militaristic
advantages today as it did back then, so research
isn’t such a priority.
However, not only is it impressive, but it
has influenced shows like Game of Thrones
that used a similar weapon called WildFire.
6.
Rocks of Sacsayhuamán
If you ever visit Peru, then the city of Cusco
is worth exploring because of its unique architecture.
In particular, around the northern part of
the city, is the walled complex of Sacsayhuamán,
(or Sexy Woman) and it has historians and
archaeologists pretty confused.
The large dry stone walls are made from boulders
that have been perfectly cut to fit together
without the use of any mortar, with some of
those used to create the terraces weighing
up to 200 tons.
They are some of the largest that have been
found in ancient buildings of America, and
the precision by which they were put together,
with their rounded edges, is incredible.
They are so tightly arranged that you can’t
even fit a needle between the stones.
There are a number of theories of how it was
possible to do this.
Perhaps the stones were softened with an unknown
substance from a plant or even melted with
sun mirrors to give the smooth edges.
Or you can check out my “ancient artifacts
people believe were made by aliens” video
for other theories!
We’ll perhaps never know, because the records
of the civilization who created the walls
have long been lost, and it’s certainly
a technique that would be difficult to replicate
to this day.
5.
Nepenthes
First mentioned in Homer’s “Odyssey”,
a Nepenthes is the name given to a potion
that has the ability to help you forget bad
memories.
The word means “anti-sorrow drug”, and
has been mentioned in countless literary works
since.
From all accounts it was the first instance
of the use of an antidepressant, but there
is much debate as to what substance it actually
was.
Some think it might have been a strong version
of Opium which, if prepared in the correct
way, would definitely have the ability to
make you forget your thoughts for a while.
Nonetheless, no potion that’s known today
has a long term ability to let you forget
your bad memories, but it would surely be
a useful option if the recipe was ever to
be discovered.
4.
Archimedes’ Heat Ray
According to records and images from the time,
in 212 BC during the siege of Syracuse, Archimedes
built a burning glass contraption that was
able to set fire to numerous Roman ships from
a great distance.
It’s thought that he used a series of parabolic
mirrors to focus the sun’s rays to achieve
such an effect, and the idea has since become
known as Archimedes’ Heat Ray.
Since then, though, no one has been able to
use sunlight to be able to do this!
Could it have been something else?
The problem is, despite our current knowledge
of how mirrors work, it has proven virtually
impossible to recreate the effects of what
his weapon did during that battle.
Even the TV show Mythbusters tried to recreate
it and determined that it wasn’t possible.
However, in 2005, a team at MIT seemed to
get close to a design that would have the
desired effect 100 feet away.
Some solar panel farms focus intense beams
of light with a series of mirrors and, while
it definitely wouldn’t be a good idea for
a human to touch one of these beams, they
still aren’t dangerous enough to set fire
to a fleet of ships.
So the question remains, how did Archimedes
do it??
3.
Flexible Glass
Flexible Glass, or ‘Vitrum Flexile’, is
an invention that was supposedly developed
during the reign of the Roman emperor Tiberius
Caesar.
We can thank the Romans again for their innovations!
It looked just like normal glass but with
one crucial difference- it wouldn’t break.
So the story goes, the inventor who made it
took a glass bowl to the emperor.
Caesar dropped it, then tried to break it,
but all he could manage was a dent.
The craftsman was even able to fix this dent
with a hammer.
Rather than being impressed, Caesar became
worried about the impact that the invention
could have on gold and silver prices.
He had him confirm that he was the only one
who knew how to make it, and then had him
beheaded.
The only information of the incident comes
from accounts by Petronius and Pliny the Elder,
so who knows what actually happened.
Of course there’s no record of how it was
made, and nothing like it has ever been made
since.
In recent years, though, with the constant
developments in smartphone technology, manufacturers
seem to be getting close to developing similar
substances.
In 2016, a company called Schott, who make
glass for a huge number of devices already,
showcased a resilient and bendy glass that
can be thinner than a human hair.
However, it’s not quite to the level of
Vitrum Flexile, because while you can continuously
bend it- the moment you try and twist the
glass it will shatter.
So close!!
2.
The Iron Pillar in Delhi
The Iron Pillar of Delhi, India stands 23
feet (7 m) tall, and a few feet are buried
into the ground.
It is thought to have been built by King Chandragupta
in the 3rd to 4th centuries.
Inscriptions on the pillar date it to that
time, but it’s actually believed to have
been built somewhere else and moved to its
current location a few hundred years after
its construction.
What initially may seem like an ancient monument
becomes all the more mysterious because, despite
being more than 1,000 years old, the iron
pillar shows no signs of rust whatsoever.
This is something modern technology doesn’t
allow us to do, and scientists have tried
for ages to try and recreate the effects.
The problem is, it’s not clear how the pillar
has become immune to corrosion.
Several theories have been put forward, which
fall into two categories- either a complex
blend of materials that have changed the nature
of the iron, or environmental factors that
prevent rust from occurring.
The leading theory, the mixed potential theory,
suggests that the processing, structure, and
properties of the iron have worked in unison
to actually create a protective layer of rust
on the pillar so no further corrosion can
occur.
Furthermore this phenomenon is not only seen
in this pillar.
Other sites in India have similar artefacts
like cannons, and other pillars at Dhar, Mandu,
and Mount Abu.
The ancient Indian iron workers were very
skilled at forging the material, and the techniques
that have been lost over time are far beyond
current metallurgical capabilities.
1.
Stradivarius Violins
Born in 1644, Antonio Stradivari is renowned
for being the greatest craftsman of violins
that has ever lived.
He opened a workshop in Cremona, Italy, and
up until his death in 1737 made more than
1,000 violins, violas and violoncellos.
It’s thought that up to 650 of the instruments
still exist, and they are highly sought after.
A well preserved violin sold at auction for
over 14 million dollars.
This demand is because his pieces produce
a bright and warm sound unmatched by any others-
despite people’s best efforts to replicate
it.
It’s not entirely clear how Stradivari managed
to do this, but there are a number of theories.
Scientists, in 2003, suggested that it could
have been related to solar activity during
the 17th century that affected the way the
trees grew to give the wood improved acoustic
qualities.
How’s that for a theory!
Others in 2006 suggested it was because of
treatments he added to kill woodworm or fungi.
Of course, there’s a lot to the superior
design and shape of the instruments too, but
with his designs lost to history, it seems
that no one will ever be able to make a violin
as good again.
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