Information about Heron Of Alexandria
) | |
| Born | fl. 10 AD |
|---|---|
| Residence | Alexandria, Egypt |
| Nationality | Greek |
| Field | Mathematics |
| Known for | aeolipile |
Hero (or Heron) of Alexandria (Greek: Ήρων ο Αλεξανδρεύς) (c. 10 – 70 AD) was a mathematician and engineer who flourished in Alexandria, Roman Egypt and is said to be the greatest experimenter of antiquity.[1]
Among his most famous inventions were the first documented steam-powered device, the aeolipile, and a windwheel, constituting one the earliest instances of wind harnessing.[1][1] He is said to have been a follower of the Atomists. Some of his ideas were derived from the works of Ctesibius.
Background
Heron's origins were not recorded in ancient times, but a careful analysis of history allows historians to make conjectures about his origins. It was once the general agreement that Hero was an Egyptian or a Phoenician, a view that is still held by some scholars,[2] but the modern scholarly consensus is that he was a Greek.[2][1][3] The historian of mathematics C. B. Boyer explains that Hero's identification as an Egyptian or a Phoenician was largely due to the strong Babylonian influence on his work and that the current consensus is that Hero was a Greek.[2]Career
A number of references mention dates around 150 BC, but these are inconsistent with the dates of his publications and inventions. This may be due to a misinterpretation of the phrase "first century" or because Hero was a common name.It is almost certain that Hero taught at the Musaeum which included the famous Library of Alexandria, because most of his writings appear as lecture notes for courses in mathematics, mechanics, physics and pneumatics. Although the field was not formalized until the 20th century, it is thought that the work of Hero, his "programmable" automated devices in particular, represents some of the first formal research into cybernetics.[5]
Hero was known for his amazing mechanical ingenuity in the ancient world, to include his contributions in military technology and theatre. He also created devices used in temples to instill faith by deceiving believers with "magical acts of the gods."
Projects
)
Hero's wind-powered organ (reconstruction)
- The aeolipile (known as Hero's engine) was a rocket-like reaction engine and the first recorded steam engine. It was created almost two millennia before the industrial revolution. Hero's steam engine was used to open temple doors, and as a toy, but the principles behind it were not well understood, and its full potential was not realized for well over a millenium.
- The first vending machine was also one of his constructions, when a coin was introduced via a slot on the top of the machine, a set amount of Holy Water was dispensed. This was included in his list of inventions in his book, "Mechanics and Optics". When the coin was deposited, it fell upon a pan attached to a lever. The lever opened up a valve which let some water flow out. The pan continued to tilt with the weight of the coin until it fell off, at which point a counter-weight would snap the lever back up and turn off the valve.
- A windwheel operating an organ, marking probably the first instance of wind powering a machine in history.[1] [1]
- Hero also invented many mechanisms for the Greek theater, including an entirely mechanical play almost ten minutes in length, powered by a binary-like system of ropes, knots, and simple machines operated by a rotating cylindrical cogwheel. The sound of thunder was produced by the mechanically-timed dropping of metal balls onto a hidden drum.
- In Optics, Hero formulated the Principle of the Shortest Path of Light: If a ray of light propagates from point A to point B within the same medium, the path-length followed is the shortest possible. It was nearly 1000 years later that Ibn al-Haytham expanded the principle to both reflection and refraction, and the principle was not stated in its modern form until Pierre de Fermat did so in 1662.
Bibliography
Works known to be of Hero's hand:- Pneumatica, a description of machines working on air, steam or water pressure, including the hydraulis or water organ.[8]
- Automata, a description of machines which enable wonders in temples by mechanical or pneumatical means (e.g. automatic opening or closing of temple doors, statues that pour wine, etc.). See Automata.
- Mechanica, written for architects, containing means to lift heavy objects.
- Metrica, a description of how to calculate surfaces and volumes of diverse objects.
- On the Dioptra, a collection of methods to measure lengths. In this work the odometer is described, and also an apparatus which resembles a theodolite.
- Belopoeica, a description of war machines.
- Catoptrica, about the progression of light, reflection and the use of mirrors.
- Geometria, a collection of equations based on the first chapter of Metrica.
- Stereometrica, examples of three dimensional calculations based on the second chapter of Metrica.
- Mensurae, tools which can be used to conduct measurements based on Stereometrica and Metrica.
- Cheirobalistra, about catapults.
- Definitiones, containing definitions of terms for geometry.
Media
A 2007 The History Channel television show Ancient Discoveries includes recreations of most of Hero's devices.See also
References
1. ^ Research Machines plc. (2004). The Hutchinson dictionary of scientific biography. Abingdon, Oxon: Helicon Publishing, 546. “Hero of Alexandria (lived c. AD 60) Greek mathematician and engineer, the greatest experimentalist of antiquity
2. ^ George Sarton (1936). "The Unity and Diversity of the Mediterranean World", Osiris 2, p. 406-463 [429].
"Hero of Alexandria". John H. Lienhard. The Engines of Our Ingenuity. NPR. KUHF-FM Houston. 1995. No. 1038. Transcript.
T. D. De Marco (1974). "Gas-Turbine Standby-Power Generation for Water-Treatment Plants", Journal American Water Works Association 66 (2), p. 133-138.
Victor J. Katz (1998). A History of Mathematics: An Introduction, p. 184. Addison Wesley. ISBN 0321016181.
Justin E. Wilson (2006). Heron’s Formula, University of North Carolina at Charlotte.
3. ^ Gregory A Tokaty (1994). A History and Philosophy of Fluid Mechanics. Courier Dover Publications, p.26. ISBN 0486681033.
Grolier Incorporated (1989). Academic American Encyclopedia. Grolier University of Michigan, p.144. ISBN 0717220249.
Encyclopædia Britannica Online - Heron of Alexandria
Israel Shatzman, Michael Avi-Yonah (1975). Illustrated Encyclopedia of the Classical World. Harper and Row, p.234. ISBN 0060101784.
Gillian Clements (2005). The Picture History of Great Inventors. frances lincoln ltd, p.13. ISBN 0711216053.
Enc. Britannica 2007, "Heron of Alexandria"
4. ^ Boyer (1968 [1991]). "Greek Trigonometry and Mensuration", A History of Mathematics, 171-172. “At least from the days of Alexander the Great to the close of the classical world, there undoubtedly was much intercommunication between Greece and Mesopotamia, and it seems to be clear that the Babylonian arithmetic and algebraic geometry continued to exert considerable influence in the Hellenistic world. This aspect of mathematics, for example, appears so strongly in Heron of Alexandria (fl. ca. A.D. 100) that Heron once was thought to be Egyptian or Phoenician rather than Greek. Now it is thought that Heron portrays a type of mathematics that had long been present in Greece but does not find a representative among the great figures - except perhaps as betrayed by Ptolemy in the Tetrabiblos.
5. ^ Kelly, Kevin (1994). Out of control: the new biology of machines, social systems and the economic world. Boston: Addison-Wesley. ISBN 0-201-48340-8.
6. ^ A.G. Drachmann, "Heron's Windmill", Centaurus, 7 (1961), pp. 145-151
7. ^ Dietrich Lohrmann, "Von der östlichen zur westlichen Windmühle", Archiv für Kulturgeschichte, Vol. 77, Issue 1 (1995), pp.1-30 (10f.)
8. ^ Jamies W. McKinnon. "Hero of Alexandria and Hydraulis", Grove Music Online, ed. L. Macy (accessed January 17 2007), grovemusic.com (subscription access).
9. ^ O'Connor, J.J. and E.F. Robertson. Heron biography. The MacTutor History of Mathematics archive |. Retrieved on 2006-06-18.
2. ^ George Sarton (1936). "The Unity and Diversity of the Mediterranean World", Osiris 2, p. 406-463 [429].
"Hero of Alexandria". John H. Lienhard. The Engines of Our Ingenuity. NPR. KUHF-FM Houston. 1995. No. 1038. Transcript.
T. D. De Marco (1974). "Gas-Turbine Standby-Power Generation for Water-Treatment Plants", Journal American Water Works Association 66 (2), p. 133-138.
Victor J. Katz (1998). A History of Mathematics: An Introduction, p. 184. Addison Wesley. ISBN 0321016181.
Justin E. Wilson (2006). Heron’s Formula, University of North Carolina at Charlotte.
3. ^ Gregory A Tokaty (1994). A History and Philosophy of Fluid Mechanics. Courier Dover Publications, p.26. ISBN 0486681033.
Grolier Incorporated (1989). Academic American Encyclopedia. Grolier University of Michigan, p.144. ISBN 0717220249.
Encyclopædia Britannica Online - Heron of Alexandria
Israel Shatzman, Michael Avi-Yonah (1975). Illustrated Encyclopedia of the Classical World. Harper and Row, p.234. ISBN 0060101784.
Gillian Clements (2005). The Picture History of Great Inventors. frances lincoln ltd, p.13. ISBN 0711216053.
Enc. Britannica 2007, "Heron of Alexandria"
4. ^ Boyer (1968 [1991]). "Greek Trigonometry and Mensuration", A History of Mathematics, 171-172. “At least from the days of Alexander the Great to the close of the classical world, there undoubtedly was much intercommunication between Greece and Mesopotamia, and it seems to be clear that the Babylonian arithmetic and algebraic geometry continued to exert considerable influence in the Hellenistic world. This aspect of mathematics, for example, appears so strongly in Heron of Alexandria (fl. ca. A.D. 100) that Heron once was thought to be Egyptian or Phoenician rather than Greek. Now it is thought that Heron portrays a type of mathematics that had long been present in Greece but does not find a representative among the great figures - except perhaps as betrayed by Ptolemy in the Tetrabiblos.
5. ^ Kelly, Kevin (1994). Out of control: the new biology of machines, social systems and the economic world. Boston: Addison-Wesley. ISBN 0-201-48340-8.
6. ^ A.G. Drachmann, "Heron's Windmill", Centaurus, 7 (1961), pp. 145-151
7. ^ Dietrich Lohrmann, "Von der östlichen zur westlichen Windmühle", Archiv für Kulturgeschichte, Vol. 77, Issue 1 (1995), pp.1-30 (10f.)
8. ^ Jamies W. McKinnon. "Hero of Alexandria and Hydraulis", Grove Music Online, ed. L. Macy (accessed January 17 2007), grovemusic.com (subscription access).
9. ^ O'Connor, J.J. and E.F. Robertson. Heron biography. The MacTutor History of Mathematics archive |. Retrieved on 2006-06-18.
External links
- Webpage about Hero by The Technology Museum of Thessaloniki
- A translation of Pneumatica with diagrams
- Heron, and a translation of Pneumatica in German
- Heron of Alexandria, Inventions, Biography, Science (M. Lahanas)
- Heron biography, The MacTutor History of Mathematics archive
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Mathematics (colloquially, maths or math) is the body of knowledge centered on such concepts as quantity, structure, space, and change, and also the academic discipline that studies them. Benjamin Peirce called it "the science that draws necessary conclusions".
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An aeolipile is a rocket-like[1] jet engine[2] invented in the first century by Heron of Alexandria, is considered to be the first recorded steam engine and reaction steam turbine.
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engineer is someone who is trained or professionally engaged in a branch of engineering.[1] Engineers use technology, mathematics, and scientific knowledge to solve practical problems.
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history of Roman Egypt begins with the conquest of Egypt in 30 BC by Octavian (the future Emperor Augustus), following the defeat of Marc Antony and Ptolemaic Queen Cleopatra VII in the Battle of Actium.
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steam engine is an external combustion heat engine that makes use of the heat energy that exists in steam, converting it to mechanical work.
Steam engines were used as the prime mover in pumping stations, locomotives, steam ships, traction engines, steam lorries and other
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Steam engines were used as the prime mover in pumping stations, locomotives, steam ships, traction engines, steam lorries and other
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An aeolipile is a rocket-like[1] jet engine[2] invented in the first century by Heron of Alexandria, is considered to be the first recorded steam engine and reaction steam turbine.
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windmill is a machine designed to convert the energy of the wind into more useful forms using rotating blades. The term also refers to the structure it is commonly built on. In much of Europe, windmills served to grind grain, later applications include pumping water.
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It is generally thought to have been founded at the beginning of the 3rd century BC, during the reign of Ptolemy II of Egypt.
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It is generally thought to have been founded at the beginning of the 3rd century BC, during the reign of Ptolemy II of Egypt.
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Mathematics (colloquially, maths or math) is the body of knowledge centered on such concepts as quantity, structure, space, and change, and also the academic discipline that studies them. Benjamin Peirce called it "the science that draws necessary conclusions".
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For other uses, see Mechanic (disambiguation).
Mechanics (Greek Μηχανική
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Physics is the science of matter[1] and its motion[2][3], as well as space and time[4][5] —the science that deals with concepts such as force, energy, mass, and charge.
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