Thursday, June 7, 2018
Wednesday, June 6, 2018
1. Undershot water wheel; 2. Overshot Water Wheel, 3. Water Mill Gears, 4. Water Gear Shaft.
1. Undershot water wheel; 2. Overshot Water Wheel, 3. Water Mill Gears, 4. Water Gear Shaft. Some early ideas leading to the thought of using water power to accelerate production over human labor animal labor.
1. Swing Beam Pump; 2.Double Bucket Wheel Pump; 3. Drum Pump; 4. Persian Wheel Pump.
1. Swing Beam Pump; 2.Double Bucket Wheel Pump; 3. Drum Pump; 4. Persian Wheel Pump.
These are four more pump types used in the Roman world. All these designs led to even more and better advancement in the modern day.
Sunday, June 3, 2018
Tower and Gate of St. Paul, Island of Rhodes
The fortifications of the town of Rhodes are shaped like a defensive crescent around the medieval town and consist mostly in a modern fortification composed of a huge wall made of an embankment encased in stone, equipped with scarp, bastions, moat, counterscarp, and glacis. The portion of fortifications facing the harbor is instead composed of a crenelated wall. On the mole's towers and defensive forts are found. The 'Tower and Gate of St. Paul' with the 'Post of France' is shown at the bottom of the drawing. The 'Gate of St. Paul 'gave access to the 'Mandraki Harbor.'
Friday, June 1, 2018
Dioptra of Heron
Drawing of a "Diopta by Heron," by Marcus Audens.
A dioptra (sometimes also named dioptre or diopter from Greek: διόπτρα) is a classical astronomical and surveying instrument, dating from the 3rd century BCE. The dioptra was a sighting tube or, alternatively, a rod with a sight at both ends, attached to a stand. If fitted with protractors, it could be used to measure angles.
Greek astronomers used the dioptra to measure the positions of stars; both Euclid and Geminus refer to the dioptra in their astronomical works. By the time of Ptolemy (2nd century CE), it was obsolete as an astronomical instrument, having been replaced by the armillary sphere.
It continued in use as an effective surveying tool. Adapted to surveying, the dioptra is similar to the theodolite, or surveyor's transit, which dates to the sixteenth century. It is a more accurate version of the "groma."
The dioptra may have been sophisticated enough, for example, to construct a tunnel through two opposite points in a mountain. There is some speculation that it may have been used to build the Eupalinian aqueduct. Called "one of the greatest engineering achievements of ancient times," it is a tunnel 1,036 meters (4,000 ft) long, "excavated through Mount Kastro on the Greek island of Samos, in the 6th century BCE" during the reign ofPolycrates. Scholars disagree whether the dioptra was available that early.
An entire book about the construction and surveying usage of the dioptra is credited to Hero of Alexandria (also known as Heron; a brief description of the book is available online; see Lahanas link, below). Heron was "one of history’s most ingenious engineers and applied mathematicians."
The dioptra was used extensively on aqueduct building projects. The screw turns on several different parts of the instrument made it easy to calibrate for very precise measurements
The dioptra was replaced as a surveying instrument by the theodolite.
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