capstone303

May 28

[video]

May 27

Moerenuma Park ”tetra mound” Isamu Noguchi

Moerenuma Park ”tetra mound” Isamu Noguchi

May 26

banri’s fotolife - [紀元祭][橿原神宮][神武天皇][畝傍][日本]

banri’s fotolife - [紀元祭][橿原神宮][神武天皇][畝傍][日本]

May 25

(via pipco)

May 24

un: epigothica: Sumerian Star Chart Sky Map of Ancient Nineveh 3300 BC A reproduction of a Sumerian star map or “planisphere” recovered from the 650BC underground library of Ashurbanipal in Nineveh, Iraq in the late 19th century. Long thought to be an Assyrian tablet, computer analysis has matched it with the sky above Mesopotamia in 3300BC and proves it to be of much more ancient Sumerian origin. The tablet is an “Astrolabe”, the earliest known astronomical instrument. It usually consisted of a segmented, disc shaped star chart with marked units of angle measure inscribed upon the rim. Unfortunately considerable parts of the planisphere are missing ( approx 40%), damage which dates to the sacking of Nineveh. The reverse of the tablet is not inscribed. Still under study by modern scholars, the planisphere provides extraordinary proof of the existence of Sumerian astronomy…and a very sophisticated astronomy at that. unknown author someone please cheesecake this.

un:

epigothica:

Sumerian Star Chart

Sky Map of Ancient Nineveh 3300 BC

A reproduction of a Sumerian star map or “planisphere” recovered from the 650BC underground library of Ashurbanipal in Nineveh, Iraq in the late 19th century. Long thought to be an Assyrian tablet, computer analysis has matched it with the sky above Mesopotamia in 3300BC and proves it to be of much more ancient Sumerian origin. The tablet is an “Astrolabe”, the earliest known astronomical instrument. It usually consisted of a segmented, disc shaped star chart with marked units of angle measure inscribed upon the rim. Unfortunately considerable parts of the planisphere are missing ( approx 40%), damage which dates to the sacking of Nineveh. The reverse of the tablet is not inscribed. Still under study by modern scholars, the planisphere provides extraordinary proof of the existence of Sumerian astronomy…and a very sophisticated astronomy at that.

unknown author

someone please cheesecake this.

May 23

raurublock: W6xq9.jpg

raurublock:

W6xq9.jpg

(via shinoddddd)

May 22

(Source: mentallyfucked, via ak47)

May 18

e-d-i-t: 神聖結界ゼロ磁場宝珠 音響ピラミッド 販売元 ミロクSound

e-d-i-t:

神聖結界ゼロ磁場宝珠 音響ピラミッド 販売元 ミロクSound

May 17

(Source: n-asa-n, via sampler)

May 16

pandamandium: white facets

pandamandium:

white facets

(Source: weissesrauschen, via parametricworld)

May 15

(Source: minimalpeculiarity, via parametricworld)

May 14

themadeshop: Solid Ho clock by Paula Collective

themadeshop:

Solid Ho clock by Paula Collective

(via nemoi)

May 13

[video]

[video]

May 12

inothernews: CHURCH OF SMALL SAINTS   An electron microscope photograph shows a scale model of Vienna’s St. Stephen’s Cathedral created by a newly developed 3D printing technique for nano structures.  Researchers from the Vienna University of Technology have set a new world speed record for creating objects about the size of grains of sand. Making complex large 3D structures in the past would take hours or even days but with the newly developed 3D laser printer, the scientists can speed that up by a factor of up to 1,000 times.  The process, called “two-photon lithography,” involves using a focused laser beam to harden liquid resin in order to create micro objects of solid polymer.  (Photo: Vienna University of Technology / Reuters via MSNBC.com)

inothernews:

CHURCH OF SMALL SAINTS   An electron microscope photograph shows a scale model of Vienna’s St. Stephen’s Cathedral created by a newly developed 3D printing technique for nano structures.  Researchers from the Vienna University of Technology have set a new world speed record for creating objects about the size of grains of sand. Making complex large 3D structures in the past would take hours or even days but with the newly developed 3D laser printer, the scientists can speed that up by a factor of up to 1,000 times.  The process, called “two-photon lithography,” involves using a focused laser beam to harden liquid resin in order to create micro objects of solid polymer.  (Photo: Vienna University of Technology / Reuters via MSNBC.com)

(via pipco)