Inventions Still In Use Today Ancient Greece Inventions Still In Use Today

The Robot Servant of Philon Philo of Byzantium, also known as Philo Mechanicus, was a Greek engineer and writer on mechanics, who lived during the latter half of the 3rd century BC.  Among his many inventions was a human-like robot in the form of a maid, who held a jug of wine in her right hand. When the visitor placed a cup in the palm of her left hand, she automatically poured wine initially and then she poured water into the cup mixing it when desired. The robot was created through a complex construction consisting of containers, tubes, air pipes, and winding springs, which interacted through variants in weight, air pressure, and vacuum.  The result is the oldest known robot created by man.

Archimedes’ Screw Archimedes of Syracuse (c. 287 BC –  212 BC) was an Ancient Greek mathematician, physicist, engineer, inventor, and astronomer. Although few details of his life are known, he is regarded as one of the leading scientists in classical antiquity. A large part of Archimedes' work in engineering arose from fulfilling the needs of his home city of Syracuse. King Hiero II commissioned Archimedes to design a huge ship, the Syracusia, which could carry 600 people and would be used for luxury travel, carrying supplies, and as a naval warship.  Since a ship of this size would leak a considerable amount of water through the hull, the Archimedes' screw was purportedly developed in order to remove the bilge water. Archimedes' machine was a device with a revolving screw-shaped blade inside a cylinder. It was turned by hand, and could also be used to transfer water from a low-lying body of water into irrigation canals. The Archimedes' screw is still in use today for pumping liquids and granulated solids such as coal and grain.

Heron’s Automatic Theatre Heron of Alexandria (c. 10 – 70 AD) was a Greek mathematician and engineer who is considered to be one of the greatest experimenters of antiquity.  One of his more artistic creations was an automatic theatre that presented Nauplius, a tragic tale set in the period after the Trojan War. As (presumably) amazed playgoers watched, the doors to a miniature theater swung open, and animated figures acted out a series of dramatic events, including the repair of Ajax's ship by nymphs wielding hammers, the Greek fleet sailing the seas accompanied by leaping dolphins, and the final destruction of Ajax by a lightning bolt hurled at him by the goddess Athena. The entirely mechanical play, which was almost ten minutes in length, was powered by a binary-like system of ropes, knots, and machines operated by a rotating cylindrical cogwheel. Even the sound of thunder was produced, created by the mechanically-timed dropping of metal balls onto a hidden drum.

Archimedes’ Claw The Claw of Archimedes (also known as the "iron hand") was an ancient weapon devised by Archimedes to defend the seaward portion of Syracuse's city wall against amphibious assault. Although its exact nature is unclear, the accounts of ancient historians seem to describe it as a sort of crane equipped with a grappling hook that was able to lift attacking ships partly out of the water, then either cause the ship to capsize or suddenly drop it. These machines featured prominently during the Second Punic War in 214 BC, when the Roman Republic attacked Syracuse with a fleet of 60 Quinqueremes under Marcus Claudius Marcellus. When the Roman fleet approached the city walls under cover of darkness, the machines were deployed, sinking many ships and throwing the attack into confusion. Historians such as Polybius and Livy attributed heavy Roman losses to these machines, together with catapults also devised by Archimedes.

Archimedes’ Burning Mirrors The 2nd century AD author Lucian wrote that during the Siege of Syracuse (c. 214–212 BC), Archimedes destroyed enemy ships with fire. Centuries later, Anthemius of Tralles mentions burning-glasses as Archimedes' weapon. The device, sometimes called the "Archimedes heat ray", was used to focus sunlight onto approaching ships, causing them to catch fire. It has been suggested that a large array of highly polished bronze or copper shields acting as mirrors could have been employed to focus sunlight onto a ship. This would have used the principle of the parabolic reflector in a manner similar to a solar furnace. A test of the Archimedes heat ray was carried out in 1973 by the Greek scientist Ioannis Sakkas. The experiment took place at the Skaramagas naval base outside Athens. On this occasion 70 mirrors were used, each with a copper coating and a size of around five by three feet (1.5 by 1 m). The mirrors were pointed at a plywood mock-up of a Roman warship at a distance of around 160 feet (50 m). When the mirrors were focused accurately, the ship burst into flames within a few seconds.

Levers Levers are one of the basic tools; they were probably used in prehistoric times. Levers were first described about 260 BC by Archimedes. Many of our basic tools use levers, including scissors (two class-1 levers), pliers (two class-1 levers), hammer claws (one class-1 lever), nutcrackers (two class-2 levers), and tongs (two class-3 levers). The lever consists of three elements: the place where force is applied, the load to be moved, and the pivot point or fulcrum. These can be arranged in various orders. The familiar situation of pushing down on a beam to lift a load has the elements in the order force- fulcrum-load. A wheelbarrow is a lever with its elements in the order force-load-fulcrum (the wheel is the fulcrum). The lever was still amazing enough that in the third century B.C. Archimedes could awe listeners by saying "give me a place to stand and a lever long enough, and I will move the Earth".

Thanks to high-tech scanning, 2,000-year-old inscriptions on the Antikythera Mechanism, an ancient Greek "computer," can be read more clearly than ever before, revealing more information about the device and its possible uses. Ever since the first fragments of the device were pulled from a shipwreck off the coast of the Greek island Antikythera in 1901, scientists and historians have been trying to learn more about its purpose. The bronze astronomical calculator was about the size of a shoebox, with dials on its exterior and an intricate system of 30 bronze gear wheels inside. With the turn of a hand crank, the ancient Greeks could track the positions of the sun and the moon, the lunar phases, and even cycles of Greek athletic competitions.