Greek Architecture

1. Greek Architecture

2. Reconstruction of the Agora of Athens Image source: http://coursesite.uhcl.edu/HSH/Whitec/terms/A/agora.htm The focal point of the Greek city-state was the Agora – a large open space surrounded by buildings

3. Reconstruction of the Agora of Athens Image source: http://plurdledgabbleblotchits.tumblr.com/post/120075838869/cindywest-reconstrucci%C3%B3n-del-%C3%A1gora-de-atenas The is where Greek citizens would come to shop, worship, and participate in government

4. The agora was like your local “downtown,” where people go to to do whatever it is we do when we go “downtown”

5. Reconstruction of the Agora of Athens Image source: http://plurdledgabbleblotchits.tumblr.com/post/120075838869/cindywest-reconstrucci%C3%B3n-del-%C3%A1gora-de-atenas The Stoa was a common architectural feature of the Agora Stoa

6. The stoa consisted of a double row of columns topped by a roof, and offered shade from the sun

7. Vendors would sell their wares here, and philosophers would meet their students here as well

8. Reconstruction of the Agora of Athens Image source: http://plurdledgabbleblotchits.tumblr.com/post/120075838869/cindywest-reconstrucci%C3%B3n-del-%C3%A1gora-de-atenas The agora also included temples, but each city had an Acropolis – which means “High City” – and this is where the most important temples dedicated to the city’s gods were located Acropolis = “High City”

9. Temple of Poseidon, c. 440 BCE Image source: http://www.ancient.eu/image/250/ Greek temples were built with stone and used the post and lintel system of architecture, where columns hold up the roof P O S T P O S T LINTEL P O S T P O S T LINTEL P O S T P O S T LINTEL

10. There are a variety of types of Greek temples, most of them rectangular in shape (with the exception of the round tholos-type temple), with columns on the outside

11. This plan shows a typical peripteral (or peristyle) temple

12. The black circles refer to columns, and the thick black lines refer to walls Columns Walls

13. The building was raised on a platform called the stylobate, and approached by a ramp Stylobate

14. The sloping roof was made of timber, and covered with tile

15. Columns were actually carved in separate pieces (or drums), and stacked vertically on a wooden core

16. The temple was entered through a porch, called the Pronaos

17. And the main part of the temple is called the Naos (or cella)

18. This is where a cult statue of the god was held – but people didn’t go inside the building to worship

19. Sacrifice scene. Attic red-figure krater, ca. 430 BC–420 BCE, Louvre Image source: https://commons.wikimedia.org/wiki/File:Sacrifice_Pothos_Painter_Louvre_G496.jpg Greek religious rituals took place at an altar outside the temple, rather than inside –and as a result, Greek architects were much more concerned with how the building looked on the outside, rather than the inside

20. Greek architects developed a “grammar” of column elements called the “orders”

21. Each order had its own specific characteristics, and architects rarely mixed elements from one order with another

22. There are hundreds of elements proper to each of the orders — you need to know only those that are easiest to recognize

23. The Doric order has a massive column shaft, a cushion-shaped capital, and alternating triglyphs and metopes along the frieze Massive column shaft Cushion capital Triglyph Metope Triglyph

24. This is an example of a Doric temple

25. The triangular area on top is called the pediment

26. And here is another example of a Doric temple

27. The Ionic order has a slender column shaft, a volute capital, and instead of triglyphs and metopes, it has a smooth continuous frieze Slender column shaft Volute capital Frieze

28. This is an example of an Ionic temple

29. And here is another example

30. Temple of Hera, Paestum, c. 550 BCE Just like sculpture and vase painting, Greek architecture evolved over time

31. Temple of Hera, Paestum, c. 550 BCE This temple was erected in the Greek colony of Paestum (in Italy) in the 6th century (during the Archaic period)

32. Temple of Hera, Paestum, c. 550 BCE It is a Doric order temple, and was dedicated to Hera, wife of Zeus -- one of the 12 Olympian deities

33. Temple of Hera, Paestum, c. 550 BCE The building has suffered considerable damage over the years – the roof and interior walls are no longer standing

34. Temple of Hera, Paestum, c. 550 BCE So we have to use our imagination to reconstruct what it would have originally looked like

35. Temple of Hera, Paestum, c. 550 BCE The columns are massive, and seem to swell in their mid-section

36. This swelling is called “entasis”

37. Temple of Hera, Paestum, c. 550 BCE It gives the columns a more elastic appearance, and reveals their weight-bearing function

38. About a century after the temple of Hera was completed, a second temple dedicated to Poseidon was built right next to it Temple of Hera c. 550 BCE Temple of Poseidon c. 460 BCE

39. It is also a Doric Temple, with massive column shafts, cushion capitals, and alternating triglyphs and metopes Massive column shaft Cushion capital Triglyph Metope

40. It also still has its triangular shaped pediment

41. The main difference between the two buildings is in their proportions Temple of Hera c. 550 BCE Temple of Poseidon c. 460 BCE

42. The columns of the newer temple, for example, are taller Temple of Hera c. 550 BCE Temple of Poseidon c. 460 BCE

43. They still have “entasis,” but they are less chunky, and more refined

44. And there are 6 columns across the front, rather than 9 -- resulting in different proportions

45. While the Temple of Hera is “squat,” the Temple of Poseidon is taller, more lofty, and more graceful in its proportions Temple of Hera c. 550 BCE Temple of Poseidon c. 460 BCE

46. Basically, this is what Greek architects did: they tweaked the proportions of their buildings in order to achieve the most visually “perfect” building possible

47. The Temple of Athena Parthenos (the Parthenon), located on the acropolis above Athens, is widely regarded as the most “perfect” Greek temple

48. The original temple had been destroyed by the Persians during the Persian wars

49. But during the 5th century the buildings of the sanctuary were rebuilt, under the leadership of the democratically elected leader Pericles

50. The most important building was the Temple of Athena Parthenos – known today as the Parthenon The Parthenon

51. It was dedicated to Athena, patron goddess of the city

52. The Parthenon is a Doric temple (though we will see later that it also has some Ionic elements)

53. The building has suffered considerable damage over the centuries

54. The roof and inner walls are no longer standing

55. Some of the worse damage was done in 1687, when it was being used to store ammunition, and was bombed by Venetian shells

56. There is a full-scale replica of the building in Nashville Tennessee, which give us some idea of the grandeur of the original building

57. The architects of the Parthenon were Iktinos and Callikrates, and they perfected the formula for constructing the most visually “perfect” temple ever to have been built in the Greek world

58. The secret is in the math: the controlling ratio for the building is X = 2y + 1, which governs every aspect of the building

59. For example, there are 8 columns along the front, and 17 along the side: 2 x 8 + 1 = 17, thus conforming to the formula X = 2y + 1 X = 2y + 1

60. This ratio is also related to the Golden Section, a mathematical proportion based on pi, and is believed to be the basis of all natural beauty

61. Yet, despite the sophisticated mathematics that went into the design of the Parthenon, there is not a straight line in the building!

62. The stylobate and entablature, for example, are curved rather than straight

63. This was to make the building appear perfect: without this subtle curve, the building would appear to sag in the middle

64. And the columns are not exactly straight either: they tilt just a tiny bit inward

65. Its difficult to see with the naked eye, but if we frame the building with a perfect square you can see that the outer columns tilt just a little bit inwards

66. If the columns were perfectly straight, they would appear to tilt outwards – so the adjustment was, again, to make the building appear perfectly geometrical

67. So Greek architects strove to make their buildings appear perfect to the human eye, as if to illustrate Protagoras’ famous claim that “Man is the measure of all things”

68. The human eye alone can determine what is perfect and right

69. I highly recommend this short video from NOVA that goes into more detail about the optical refinements of the Parthenon

70. Thanks for listening!

Greek Architecture

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