mannheim

umsteigen

v/i (unreg., trennb., ist -ge-)

1. change (in +Akk [on]to; nach for); bei Verkehrsmitteln: change trains ( oder buses etc.)

2. umg., fig. switch ( auf + Akk to), change over (to)

3. Skisport: perform a step turn

* * *

das Umsteigen

transfer

* * *

ụm|stei|gen

vi sep irreg aux sein

1) (in anderes Verkehrsmittel) to change (nach for); (in Bus, Zug etc) to change (buses/trains etc)

bitte hier umsteigen nach Eppendorf — (all) change here for Eppendorf

in ein anderes Auto umsteigen, von einem Auto ins andere umsteigen — to change or switch cars

bitte beim Umsteigen beeilen! — will those passengers changing here please do so quickly

2) (fig inf) to change over, to switch (over) (

auf +acc to)

* * *

um|stei·gen

vi irreg Hilfsverb: sein

1. TRANSP to change

in Mannheim müssen Sie nach Frankfurt \umsteigen in Mannheim you must change for Frankfurt

2. (überwechseln)

▪ auf etw akk \umsteigen to switch [or change] [over] to sth

* * *

unregelmäßiges intransitives Verb

1) change (in + Akk. [on] to)

nach Frankfurt umsteigen — (ugs.) change for Frankfurt

2) (fig. ugs.) change over, switch (auf + Akk. to)

* * *

umsteigen v/i (irr, trennb, ist -ge-)

1. change (

in +akk [on]to;

nach for); bei Verkehrsmitteln: change trains ( oder buses etc)

2. umg, fig switch (

auf +akk to), change over (to)

3. Skisport: perform a step turn

* * *

unregelmäßiges intransitives Verb

1) change (in + Akk. [on] to)

nach Frankfurt umsteigen — (ugs.) change for Frankfurt

2) (fig. ugs.) change over, switch (auf + Akk. to)

* * *

v.

to change (plane, train, bus) v.

umsteigen

um|stei·gen

vi irreg sein

1) transp to change;

in Mannheim müssen Sie nach Frankfurt \umsteigen in Mannheim you must change for Frankfurt

2) ( überwechseln)

auf etw akk \umsteigen to switch [or change] [over] to sth

Reichenbach, Georg Friedrich von

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering, Photography, film and optics, Public utilities

[br]

b. 24 August 1772 Durlach, Baden, Germany

d. 21 May 1826 Munich, Germany

[br]

German engineer.

[br]

While he was attending the Military School at Mannheim, Reichenbach drew attention to himself due to the mathematical instruments that he had designed. On the recommendation of Count Rumford in Munich, the Bavarian government financed a two-year stay in Britain so that Reichenbach could become acquainted with modern mechanical engineering. He returned to Mannheim in 1793, and during the Napoleonic Wars he was involved in the manufacture of arms. In Munich, where he was in the service of the Bavarian state from 1796, he started producing precision instruments in his own time. His basic invention was the design of a dividing machine for circles, produced at the end of the eighteenth century. The astronomic and geodetic instruments he produced excelled all the others for their precision. His telescopes in particular, being perfect in use and of solid construction, soon brought him an international reputation. They were manufactured at the MathematicMechanical Institute, which he had jointly founded with Joseph Utzschneider and Joseph Liebherr in 1804 and which became a renowned training establishment. The glasses and lenses were produced by Joseph Fraunhofer who joined the company in 1807.

In the same year he was put in charge of the technical reorganization of the salt-works at Reichenhall. After he had finished the brine-transport line from Reichenhall to Traunstein in 1810, he started on the one from Berchtesgaden to Reichenhall which was an extremely difficult task because of the mountainous area that had to be crossed. As water was the only source of energy available he decided to use water-column engines for pumping the brine in the pipes of both lines. Such devices had been in use for pumping purposes in different mining areas since the middle of the eighteenth century. Reichenbach knew about the one constructed by Joseph Karl Hell in Slovakia, which in principle had just been a simple piston-pump driven by water which did not work satisfactorily. Instead he constructed a really effective double-action water-column engine; this was a short time after Richard Trevithick had constructed a similar machine in England. For the second line he improved the system and built a single-action pump. All the parts of it were made of metal, which made them easy to produce, and the pumps proved to be extremely reliable, working for over 100 years.

At the official opening of the line in 1817 the Bavarian king rewarded him generously. He remained in the state's service, becoming head of the department for roads and waterways in 1820, and he contributed to the development of Bavarian industry as well as the public infrastructure in many ways as a result of his mechanical skill and his innovative engineering mind.

[br]

Further Reading

Bauernfeind, "Georg von Reichenbach" Allgemeine deutsche Biographie 27:656–67 (a reliable nineteenth-century account).

W.Dyck, 1912, Georg v. Reichenbach, Munich.

K.Matschoss, 1941, Grosse Ingenieure, Munich and Berlin, 3rd edn. 121–32 (a concise description of his achievements in the development of optical instruments and engineering).

WK

(г.) Мангейм

Geography: Mannheim (ФРГ)

мангеймская школа

Music: Mannheim school

Мангейм

Geography: (г.) Mannheim (ФРГ)

Мангейм

( Германия) Mannheim

მანჰეიმი

n

Mannheim

Bergius, Friedrich Carl Rudolf

SUBJECT AREA: Chemical technology, Mining and extraction technology

[br]

b. 11 October 1884 Goldschmieden, near Breslau, Germany

d. 31 March Buenos Aires, Argentina

[br]

German chemist who invented the coal-liquefaction process

[br]

After studying chemistry in Breslau and Leipzig and assisting inter alia at the institute of Fritz Haber in Karlsruhe on the catalysis of ammonia under high pressure, in 1909 he went to Hannover to pursue his idea of turning coal into liquid hydrocarbon under high hydrogen pressure (200 atm) and high temperatures (470° C). As experiments with high pressure in chemical processes were still in their initial stages and the Technical University could not support him sufficiently, he set up a private laboratory to develop the methods and to construct the equipment himself. Four years later, in 1913, his process for producing liquid or organic compounds from coal was patented.

The economic aspects of this process were apparent as the demand for fuels and lubricants increased more rapidly than the production of oil, and Bergius's process became even more important after the outbreak of the First World War. The Th. Goldschmidt company of Essen contracted him and tried large-scale production near Mannheim in 1914, but production failed because of the lack of capital and experience to operate with high pressure on an industrial level. Both capital and experience were provided jointly by the BASF company, which produced ammonia at Merseburg, and IG Farben, which took over the Bergius process in 1925, the same year that the synthesis of hydrocarbon had been developed by Fischer-Tropsch. Two years later, at the Leuna works, almost 100,000 tonnes of oil were produced from coal; during the following years, several more hydrogenation plants were to follow, especially in the eastern parts of Germany as well as in the Ruhr area, while the government guaranteed the costs. The Bergius process was extremely important for the supply of fuels to Germany during the Second World War, with the monthly production rate in 1943–4 being more than 700,000 tonnes. However, the plants were mostly destroyed at. the end of the war and were later dismantled.

As a consequence of this success Bergius, who had gained an international reputation, went abroad to work as a consultant to several foreign governments. Experiments aiming to reduce the costs of production are still continued in some countries. By 1925, after he had solved all the principles of his process, he had turned to the production of dextrose by hydrolyzing wood with highly concentrated hydrochloric acid.

[br]

Principal Honours and Distinctions

Nobel Prize 1931. Honorary doctorates, Heidelberg, Harvard and Hannover.

Bibliography

1907, "Über absolute Schwefelsäure als Lösungsmittel", unpublished thesis, Weida. 1913, Die Anwendung hoher Drucke bei chemischen Vorgängen und eine Nachbildung

des Entstehungsprozesses der Steinkohle, Halle. 1913, DRP no. 301, 231 (coal-liquefaction process).

1925, "Verflüssigung der Kohle", Zeitschrift des Vereins Deutscher Ingenieure, 69:1313–20, 1359–62.

1933, "Chemische Reaktionen unter hohem Druck", Les Prix Nobel en 1931, Stockholm, pp. 1–37.

Further Reading

Deutsches Bergbau-Museum, 1985, Friedrich Bergius und die Kohleverflüssigung. Stationen einer Entwicklung, Bochum (gives a comprehensive and illustrated description of the man and the technology).

H.Beck, 1982, Friedrich Bergius, ein Erfinderschicksal, Munich: Deutsches Museum (a detailed biographical description).

W.Birkendfeld, 1964, Der synthetische Treibstoff 1933–1945. Ein Beitragzur nationalsozialistischen Wirtschafts-und Rüstungspolitik, Göttingen, Berlin and Frankfurt (describes the economic value of synthetic fuels for the Third Reich).

WK

Forrester, Jay Wright

SUBJECT AREA: Electronics and information technology

[br]

b. 14 July 1918 Anselmo, Nebraska, USA

[br]

American electrical engineer and management expert who invented the magnetic-core random access memory used in most early digital computers.

[br]

Born on a cattle ranch, Forrester obtained a BSc in electrical engineering at the University of Nebraska in 1939 and his MSc at the Massachusetts Institute of Technology (MIT) in Cambridge, Massachusetts, where he remained to teach and carry out research. Becoming interested in computing, he established the Digital Computer Laboratory at MIT in 1945 and became involved in the construction of Whirlwind I, an early general-purpose computer completed in March 1951 and used for flight-simulation by the US Army Air Force. Finding the linear memories then available for storing data a major limiting factor in the speed at which computers were able to operate, he developed a three-dimensional store based on the binary switching of the state of small magnetic cores that could be addressed and switched by a matrix of wires carrying pulses of current. The machine used parallel synchronous fixed-point computing, with fifteen binary digits and a plus sign, i.e. 16 bits in all, and contained 5,000 vacuum tubes, eleven semiconductors and a 2 MHz clock for the arithmetic logic unit. It occupied a two-storey building and consumed 150kW of electricity. From his experience with the development and use of computers, he came to realize their great potential for the simulation and modelling of real situations and hence for the solution of a variety of management problems, using data communications and the technique now known as interactive graphics. His later career was therefore in this field, first at the MIT Lincoln Laboratory in Lexington, Massachusetts (1951) and subsequently (from 1956) as Professor at the Sloan School of Management at the Massachusetts Institute of Technology.

[br]

Principal Honours and Distinctions

National Academy of Engineering 1967. George Washington University Inventor of the Year 1968. Danish Academy of Science Valdemar Poulsen Gold Medal 1969. Systems, Man and Cybernetics Society Award for Outstanding Accomplishments 1972. Computer Society Pioneer Award 1972. Institution of Electrical Engineers Medal of Honour 1972. National Inventors Hall of Fame 1979. Magnetics Society Information Storage Award 1988. Honorary DEng Nebraska 1954, Newark College of Engineering 1971, Notre Dame University 1974. Honorary DSc Boston 1969, Union College 1973. Honorary DPolSci Mannheim University, Germany. Honorary DHumLett, State University of New York 1988.

Bibliography

1951, "Data storage in three dimensions using magnetic cores", Journal of Applied Physics 20: 44 (his first description of the core store).

Publications on management include: 1961, Industrial Dynamics, Cambridge, Mass.: MIT Press; 1968, Principles of Systems, 1971, Urban Dynamics, 1980, with A.A.Legasto \& J.M.Lyneis, System Dynamics, North Holland. 1975, Collected Papers, Cambridge, Mass.: MIT.

Further Reading

K.C.Redmond \& T.M.Smith, Project Whirlwind, the History of a Pioneer Computer (provides details of the Whirlwind computer).

H.H.Goldstine, 1993, The Computer from Pascal to von Neumann, Princeton University Press (for more general background to the development of computers).

Serrell et al., 1962, "Evolution of computing machines", Proceedings of the Institute of

Radio Engineers 1,047.

M.R.Williams, 1975, History of Computing Technology, London: Prentice-Hall.

See also: Burks, Arthur Walter; Goldstine, Herman H.; Wilkes, Maurice Vincent; Williams, Sir Frederic Calland

KF

Senefelder, Alois

SUBJECT AREA: Paper and printing

[br]

b. 6 November 1771 Prague, Bohemia (now Czech Republic)

d. 26 February 1834 Munich, Germany

[br]

German inventor of lithography.

[br]

Soon after his birth, Senefelder's family moved to Mannheim, where his father, an actor, had obtained a position in the state theatre. He was educated there, until he gained a scholarship to the university of Ingolstadt. The young Senefelder wanted to follow his father on to the stage, but the latter insisted that he study law. He nevertheless found time to write short pieces for the theatre. One of these, when he was 18 years old, was an encouraging success. When his father died in 1791, he gave up his studies and took to a new life as poet and actor. However, the wandering life of a repertory actor palled after two years and he settled for the more comfortable pursuit of playwriting. He had some of his work printed, which acquainted him with the art of printing, but he fell out with his bookseller. He therefore resolved to carry out his own printing, but he could not afford the equipment of a conventional letterpress printer. He began to explore other ways of printing and so set out on the path that was to lead to an entirely new method.

He tried writing in reverse on a copper plate with some acid-resisting material and etching the plate, to leave a relief image that could then be inked and printed. He knew that oily substances would resist acid, but it required many experiments to arrive at a composition of wax, soap and charcoal dust dissolved in rainwater. The plates wore down with repeated polishing, so he substituted stone plates. He continued to etch them and managed to make good prints with them, but he went on to make the surprising discovery that etching was unnecessary. If the image to be printed was made with the oily composition and the stone moistened, he found that only the oily image received the ink while the moistened part rejected it. The printing surface was neither raised (as in letterpress printing) nor incised (as in intaglio printing): Senefelder had discovered the third method of printing.

He arrived at a workable process over the years 1796 to 1799, and in 1800 he was granted an English patent. In the same year, lithography (or "writing on stone") was introduced into France and Senefelder himself took it to England, but it was some time before it became widespread; it was taken up by artists especially for high-quality printing of art works. Meanwhile, Senefelder improved his techniques, finding that other materials, even paper, could be used in place of stone. In fact, zinc plates were widely used from the 1820s, but the name "lithography" stuck. Although he won world renown and was honoured by most of the crowned heads of Europe, he never became rich because he dissipated his profits through restless experimenting.

With the later application of the offset principle, initiated by Barclay, lithography has become the most widely used method of printing.

[br]

Bibliography

1911, Alois Senefelder, Inventor of Lithography, trans. J.W.Muller, New York: Fuchs \& Line (Senefelder's autobiography).

Further Reading

W.Weber, 1981, Alois Senefelder, Erfinder der Lithographie, Frankfurt-am-Main: Polygraph Verlag.

M.Tyman, 1970, Lithography 1800–1950, London: Oxford University Press (describes the invention and its development; with biographical details).

LRD

Young, Arthur

SUBJECT AREA: Agricultural and food technology

[br]

b. 11 September 1741 London, England

d. 20 April 1820 Bradford, England

[br]

English writer and commentator on agricultural affairs; founder and Secretary of the Board of Agriculture (later the Ministry of Agriculture, Fisheries and Food).

[br]

He was the youngest of the three children of Dr Arthur Young, who was at one time Chaplain to the Speaker of the House of Commons. He learned Latin and Greek at Lavenham School, and at the age of 17 was apprenticed to a mercantile house, an occupation he disliked. He first published The Theatre of the Present War in North America in 1758. He then wrote four novels and began to produce the literary magazine The Universal Museum. After his father's death he returned home to manage his father's farm, and in 1765 he married Martha Allen.

Young learned farming by experiment, and three years after his return he took over the rent of a 300 acre farm, Samford Hall in Essex. He was not a practical farmer, and was soon forced to give it up in favour of one of 100 acres (40.5 hectares) in Hertfordshire. He subsidized his farming with his writing, and in 1768 published The Farmer's Letters to the People of England. The first of his books on agricultural tours, Six Weeks Tours through the Counties of England and Wales, was published in 1771. Between 1784 and 1809 he published the Annals of Agriculture, one of whose contributors was George III, who wrote under the pseudonym of Ralph Robinson.

By this time he was corresponding with all of influence in agricultural matters, both at home and abroad. George Washington wrote frequently to Young, and George III was reputed to travel always with a copy of his book. The Empress of Russia sent students to him and had his Tours published in Russian. Young made three trips to France in 1787, 1788 and 1789–90 respectively, prior to and during the French Revolution, and his Travels in France (1792) is a remarkable account of that period, made all the more fascinating by his personal contact with people differing as widely as Mirabeau, the French revolutionary leader, and King Louis XVI.

Unfortunately, in 1811 an unsuccessful cataract operation left him blind, and he moved from London to his native Bradford, where he remained until his death.

[br]

Principal Honours and Distinctions

Chairman, Agricultural Committee of the Society of Arts 1773: awarded three Gold Medals during his career for his achievements in practical agriculture. FRS. Honorary Member of the Dublin, York and Manchester learned societies, as well as the Economic Society of Berne, the Palatine Academy of Agriculture at Mannheim, and the Physical Society of Zurich. Honourary member, French Royal Society of Agriculture. Secretary, Board of Agriculture 1793.

Bibliography

His first novels were The Fair Americans, Sir Charles Beaufort, Lucy Watson and Julia Benson.

His earliest writings on agriculture appeared as collected letters in a periodical with the title Museum Rusticum in 1767.

In 1770 he published a two-volume work entitled A Course of Experimental Agriculture, and between 1766 and 1775 he published The Farmer's Letters, Political Arithmetic, Political Essays Concerning the Present State of the British Empire and Southern, Northern and Eastern Tours, and in 1779 he published The Tour of Ireland.

In addition he was author of the Board of Agriculture reports on the counties of Suffolk, Lincoln, Norfolk, Hertford, Essex and Oxford.

Further Reading

J.Thirsk (ed.), 1989, The Agrarian History of England and Wales, Vol. VI (deals with the years 1750 to 1850, the period associated with Young).

T.G.Gazeley, 1973, "The life of Arthur Young, 1741–1820", Memoirs, American Philosophical Society 97.

AP

Mannheimer Rakete

f

1. Mannheim rocket

2. rocket theme

οὐρανός

οὐρανός, οῦ, ὁ 24:31 (Hom.+; ‘heaven’ in various senses)

① the portion or portions of the universe gener. distinguished from planet earth, heaven (so mostly in the sing.; s. B-D-F §141, 1)

ⓐ mentioned w. the earth

α. forming a unity w. it as the totality of creation (Pla., Euthyd. 296d οὐρανὸς καὶ γῆ; Gen 1:1; 14:19, 22; Tob 7:17 BA; Jdth 9:12; Bel 5; 1 Macc 2:37 al.; PsSol 8:7; ParJer 5:32; Just., D. 74, 1; PGM 13, 784 ὁ βασιλεύων τῶν οὐρανῶν κ. τῆς γῆς κ. πάντων τῶν ἐν αὐτοῖς ἐνδιατριβόντων; Orig., C. Cels. 6, 59, 6; Theoph. Ant. 1, 4 [p. 64, 13]) ὁ οὐρανὸς καὶ ἡ γῆ Mt 5:18; 11:25; 24:35; Mk 13:31; Lk 10:21; 16:17; 21:33; Ac 4:24; 14:15; 17:24 (on the absence of the art. s. B-D-F §253, 3); Rv 14:7; 20:11; Dg 3:4; AcPlCor 2:9; 19.

β. standing independently beside the earth or contrasted w. it: Mt 5:34f; Ac 7:49 (cp. on both Is 66:1). ἐν (τῷ) οὐρανῷ καὶ ἐπὶ (τῆς) γῆς Mt 6:10; 28:18; Lk 11:2 v.l.; Rv 5:13.—1 Cor 8:5; Rv 5:3; ISm 11:2. τὸ πρόσωπον τ. γῆς καὶ τ. οὐρανοῦ Lk 12:56. Cp. Hb 12:26 (Hg 2:6); Js 5:12.—τὰ ἔσχατα τ. γῆς as extreme contrast to heaven 1 Cl 28:3. By God’s creative word the heaven was fixed and the earth founded on the waters Hv 1, 3, 4. Neither heaven nor earth can be comprehended by human measure 16:2 (Is 40:12). On ἀπʼ ἄκρου γῆς ἕως ἄκρου οὐρανοῦ Mk 13:27 s. under ἄκρον. ὁ πρῶτος οὐρ. καὶ ἡ πρώτη γῆ will give way in the last times to the οὐρ. καινός and the γῆ καινή Rv 21:1 (cp. Is 65:17; 66:22).

ⓑ as firmament or sky over the earth; out of reach for humans Hm 11:18. Hence ἕως οὐρανοῦ (ApcEsdr 4:32) Mt 11:23; Lk 10:15 or εἰς τὸν οὐρ. Hv 4, 1, 5 as an expr. denoting a great height. Likew. ἀπὸ τ. γῆς ἕως τ. οὐρανοῦ 1 Cl 8:3 (scripture quot. of unknown origin); GPt 10:40 (for a transcendent being who walks on the earth and whose head touches the sky, s. Il. 4, 443). Since the heaven extends over the whole earth, ὑπὸ τὸν οὐρ. under (the) heaven = on earth, throughout the earth (Pla., Tim. 23c, Ep. 7, 326c; UPZ 106, 14 [99 B.C.]; Eccl 1:13; 3:1; Just., A II, 5, 2) Ac 2:5; 4:12; Col 1:23; Hs 9, 17, 4; m 12, 4, 2. ὑποκάτωθεν τοῦ οὐρανοῦ throughout the earth 1 Cl 53:3 (Dt 9:14). ἐκ τῆς (i.e. χώρας) ὑπὸ τὸν οὐρ. εἰς τὴν ὑπʼ οὐρανόν from one place on earth to another Lk 17:24 (cp. Dt 29:19; Bar 5:3; 2 Macc 2:18 ἐκ τῆς ὑπὸ τὸν οὐρ. εἰς τὸν ἅγιον τόπον).—In the last days there will appear τέρατα ἐν τ. οὐρανῷ ἄνω wonders in the heaven above Ac 2:19 (Jo 3:3 v.l.). σημεῖον ἐν τῷ οὐρ. Rv 12:1, 3 (cp. Diod S 2, 30, 1 τὰ ἐν οὐρανῷ γινόμενα=what takes place in the heavens; Ael. Aristid. 50, 56 K.=26 p. 519 D., where the statue of Asclepius from Pergamum appears ἐν τῷ οὐρανῷ). The sky can even be rolled up; s. ἑλίσσω.—Rain falls fr. heaven (X., An. 4, 2, 2) and heaven is closed to bring about a drought Lk 4:25.—Rv 11:6; Js 5:18 (cp. 2 Ch 6:26; 7:13; Sir 48:3). Lightning also comes fr. heaven (Bacchylides 17, 55f ἀπʼ οὐρανοῦ … ἀστραπάν [=Attic-ήν]) Lk 10:18. Likew. of other things that come down like rain to punish sinners: fire Lk 9:54 (cp. 4 Km 1:10; TestAbr A 10 p. 88, 14 [Stone p. 24]); Rv 20:9; fire and brimstone Lk 17:29 (cp. Gen 19:24); apocalyptic hail Rv 16:21; AcPl Ha 5, 7.

ⓒ as starry heaven IEph 19:2. τὰ ἄστρα τοῦ οὐρ. (cp. ἄστρον and s. Eur., Phoen. 1; Diod S 6, 2, 2 ἥλιον κ. σελήνην κ. τὰ ἄλλα ἄστρα τὰ κατʼ οὐρανόν; Ael. Aristid. 43, 13 K.=1 p. 5 D.; TestAbr A 1 p. 78, 1 [Stone p. 4]; JosAs 2:11) Hb 11:12. οἱ ἀστέρες τοῦ οὐρ. 1 Cl 32:2 (Gen 22:17); cp. 10:6 (Gen 15:5). In the time of tribulation at the end of the world the stars will fall fr. heaven Mt 24:29a; Mk 13:25a; Rv 6:13; 12:4. Cp. 8:10; 9:1. ἡ στρατιὰ τοῦ οὐρ. (s. οὐράνιος) the host of heaven, of the stars, which some Israelites illicitly worshipped Ac 7:42 (worship of the στρατιὰ τοῦ οὐρ. in enmity to Yahweh also Jer 7:18; 19:13; Zeph 1:5; 2 Ch 33:3, 5). These are also meant by the δυνάμεις τῶν οὐρανῶν Mt 24:29b; Lk 21:26; cp. Mk 13:25b (cp. δύναμις 4).

ⓓ as place of atmosphere (cp. TestAbr A 9 p. 87, 15 [Stone p. 22] εἰς τὴν αἰθέρα τοῦ οὐρανοῦ); clouds hover in it, the νεφέλαι τοῦ οὐρ. (s. νεφέλη) Mt 24:30b; 26:64; Mk 14:62; D 16:8. Likew. the birds, τὰ πετεινὰ τοῦ οὐρανοῦ (Gen 1:26; Ps 8:9; Jdth 11:7; ParJer 7:3; cp. Bar 3:17) Mt 6:26; 8:20; 13:32; Mk 4:32; Lk 8:5; 9:58; Ac 10:12; 11:6; 6:12 (Gen 1:26), 18; Hs 9, 24, 1; GJs 3:2 codd.; 18:2 codd.—πυρράζει ὁ οὐρανός Mt 16:2, 3.—In connection w. τὸν σατανᾶν ἐκ τοῦ οὐρανοῦ πεσόντα Lk 10:18 the atmosphere may well be thought of as an abode of evil spirits. On Satan as the ἄρχων τῆς ἐξουσίας τοῦ ἀέρος, s. ἀήρ. Cp. also the λεγόμενοι θεοὶ εἴτε ἐν οὐρ. εἴτε ἐπὶ γῆς 1 Cor 8:5. In any case Rv 12:7f speaks of the dragon and his angels as being in heaven.

ⓔ The concept of more than one heaven (the idea is Semitic; but s. FTorm, ZNW 33, ’34, 48–50, who refers to Anaximander and Aristot. Also Ps.-Apollod. 1, 6, 1, 2 ms. and Achilles Tat. 2, 36, 4 and 37, 2 ms. have οὐρανοί; Himerius, Or. 66 [=Or. 20], 4 οὐρανοί as the abode of the gods; also Hesychius Miles. [VI A.D.] c. 66 JFlach of the ‘godless heathen’ Tribonian.—Schlatter, Mt² p. 58 on 3:2: ‘The pl. οὐρανοί is found neither in Philo nor Joseph.’ Cp. PKatz, Philo’s Bible ’50, 141–46; Mussies 84) is also found in our lit. (s. 1aα; Theoph. Ant. 1, 4 [p. 64, 15]), but it is not always possible to decide with certainty just where the idea is really alive and where it simply survives in a formula (in J’s Gospel the pl. is entirely absent; Rv has it only 12:12 [fr. LXX]. Eph always has the pl. In others the sing. and pl. are interchanged for no apparent reason [cp. Hb 9:23 w. 24 or Hv 1, 1, 4 w. 1, 2, 1; also GPt 10:40f; Ps. 113:11 lines 1 and 2; TestAbr, TestJob, Just., Tat.]): the third heaven (cp. Ps.-Lucian, Philopatris 12 ἐς τρίτον οὐρανὸν ἀεροβατήσας [s. on ἀνακαινίζω and πνεῦμα 8]; PSI 29, 2ff [IV A.D.?] ἐπικαλοῦμαί σε τὸν καθήμενον ἐν τῷ πρώτῳ οὐρανῷ … ἐν τῷ β´ οὐρ. … ἐν τῷ γ´ οὐρ.; Simplicius, In Epict. p. 100, 13 Düb. ὀκτὼ οὐρανοί; TestLevi 3:3; GrBar 11:1 εἰς πέμπτον οὐ. Combination of the third heaven and paradise, GrBar 10:1ff; ApcMos 37. S. τρίτος 1a) 2 Cor 12:2 (s. JohJeremias, Der Gottesberg 1919, 41ff; Ltzm., Hdb.⁴ ’49, exc. on 2 Cor 12:3f [lit.]). ὑπεράνω πάντων τῶν οὐρανῶν Eph 4:10. τ. πάντα ἐν τ. οὐρανοῖς κ. ἐπὶ τ. γῆς Col 1:16; cp. vs. 20. ἔργα τ. χειρῶν σού εἰσιν οἱ οὐρ. Hb 1:10 (Ps 101:26).—4:14; 7:26; 2 Pt 3:5, 7, 10, 12f (of the heavens, their destruction in the final conflagration, and their replacement by the καινοὶ οὐρ.); 1 Cl 20:1; 33:3. τακήσονταί τινες τῶν οὐρανῶν 2 Cl 16:3.—S. also Lampe s.v. 2.—From the concept of various celestial levels a transition is readily made to

② transcendent abode, heaven (the pl. is preferred for this mng.: B-D-F §141, 1; Rob. 408)

ⓐ as the dwelling-place (or throne) of God (Sappho, Fgm. 56 D.² [=Campbell 54] of Eros; Solon 1, 22 D.³ of Zeus; Hom. Hymn to Aphrodite 291 [all three οὐρ. in the sing. as the seat of the gods]; Pla., Phdr. 246e ὁ μέγας ἐν οὐρανῷ Ζεύς; Ps.-Aristot., De Mundo 2, 2; 3, 4 ὁ οὐρ. as οἰκητήριον θεοῦ or θεῶν; Dio Chrys. 19[36], 22 θεῶν μακάρων κατʼ οὐρανόν; Artem. 2, 68 p. 159, 13 ὁ οὐρανὸς θεῶν ἐστὶν οἶκος; Ael. Aristid. 43, 14 K.=1 p. 5 D.; Maximus Tyr. 11, 11b; ins from Saïtaï in Lydia [δύναμις 5]; IAndrosIsis, Cyrene 8 p. 129.—On the OT: GWestphal, Jahwes Wohnstätten 1908, 214–73) Mt 23:22; Ac 7:55f; Hb 8:1; 16:2b (Is 66:1); Dg 10:7. ὁ θεὸς ὁ ἐν τοῖς οὐρ. Hv 1, 1, 6 (cp. Tob 5:17 S). ὁ θεὸς τοῦ οὐρ. (Gen 24:3) Rv 11:13; 16:11. ὁ κύριος ἐν οὐρανοῖς Eph 6:9; cp. Col 4:1. ὁ πατὴρ ὑμῶν (μου, ἡμῶν) ὁ ἐν (τοῖς) οὐρ. (silver tablet fr. Amisos: ARW 12, 1909, 25 ἐγώ εἰμι ὁ μέγας ὁ ἐν οὐρανῷ καθήμενος) Mt 5:16, 45; 6:1, 9; 7:11, 21b; 10:33; 12:50; 16:17; 18:10b, 14, 19; Mk 11:25f; Lk 11:2 v.l.; D 8:2 (here the sing. ὁ ἐν τῷ οὐρ. Cp. PGM 12, 261 τῷ ἐν οὐρανῷ θεῷ). ὁ πατὴρ ὁ ἐξ οὐρανοῦ the Father who (gives) from heaven Lk 11:13 (Jos., Ant. 9, 73 ἐκχέαι τὸν θεὸν ἐξ οὐρανοῦ). God dwells in τὰ ὕψη τῶν οὐρ. 1 Cl 36:2. Therefore the one who prays looks up toward heaven: ἀναβλέπειν εἰς τὸν οὐρ. (s. ἀναβλέπω 1) Mt 14:19; Mk 6:41; 7:34; Lk 9:16; MPol 9:2; 14:1. ἀτενίσας εἰς τὸν οὐρ. εἶδεν δόξαν θεοῦ Ac 7:55; ἐπάρας τ. ὀφθαλμοὺς αὐτοῦ εἰς τὸν οὐρ. J 17:1.—The Spirit of God comes fr. (the open) heaven Mt 3:16; Mk 1:10; Lk 3:21; J 1:32; Ac 2:2(–4); 1 Pt 1:12; AcPlCor 2:5. The voice of God resounds fr. it (Maximus Tyr. 35, 7b Διὸς ἐξ οὐρανοῦ μέγα βοῶντος, the words follow) Mt 3:17; Mk 1:11; Lk 3:22; J 12:28; Ac 11:9; MPol 9:1 (cp. Just., D. 88, 8), and it is gener. the place where divine pronouncements originate Ac 11:5 and their end vs. 10. The ὀργὴ θεοῦ reveals itself fr. heaven Ro 1:18 (s. Jos., Bell. 1, 630 τὸν ἀπʼ οὐρανοῦ δικαστήν). Also, a σημεῖον ἐκ (ἀπὸ) τοῦ οὐρ. is a sign given by God Mt 16:1; Mk 8:11; Lk 11:16; cp. 21:11.—Lampe s.v. 4.

ⓑ Christ is ἐξ οὐρανοῦ from heaven, of a heavenly nature 1 Cor 15:47 (s. ἄνθρωπος 1d. On this HKennedy, St. Paul and the Conception of the ‘Heavenly Man’: Exp. 8th ser., 7, 1913, 97–110; EGraham, CQR 113, ’32, 226) and has come down from heaven J 3:13b, 31; 6:38, 42, 50 (Ar. 15, 1 ἀπʼ οὐρανοῦ καταβάς; Mel., P. 66, 467 ἀφικόμενος ἐξ οὐρανῶν), as ὁ ἄρτος ἐκ τοῦ οὐρανοῦ (s. ἄρτος 2). Cp. Ro 10:6. He returned to heaven (τὴν ἔνσαρκον εἰς τοὺς οὐρανοὺ ἀνάληψιν Iren. 1, 10, 1 [Harv. I 91, 2]; on the ascension s. CHönn, Studien zur Geschichte der Hf. im klass. Altertum: Progr. Mannheim 1910; EPfister, Der Reliquienkult im Altertum II 1912, 480ff; HDiels, Himmels u. Höllenfahrten v. Homer bis Dante: NJklA 49, 1922, 239–53; RHolland, Zur Typik der Himmelfahrt: ARW 23, 1925, 207–20; JKroll, Gott u. Hölle ’32, 533 [ind.: Ascensus]; WMichaelis, Zur Überl. der Hf.s-geschichte: ThBl 4, 1925, 101–9; AFridrichsen, D. Hf. bei Lk: ibid. 6, 1927, 337–41; GBertram, Die Hf. Jesu vom Kreuz: Deissmann Festschr. 1927, 187–217 [UHolzmeister, ZKT 55, ’31, 44–82]; HSchlier, Christus u. d. Kirche im Eph 1930, 1ff; VLarrañaga, L’Ascension de Notre-Seigneur dans le NT ’38 [fr. Spanish]. S. also at ἀνάστασις 2 end, and διά A 2a) to live there in glory: Mk 16:19; Lk 24:51; Ac 1:10f (AZwiep, The Ascension of the Messiah in Lukan Christology ’97); 2:34; 7:55f; 9:3; 22:6; 1 Pt 3:22; 15:9. Christians await his return fr. heaven: Ac 1:11; Phil 3:20; 1 Th 1:10; 4:16; 2 Th 1:7 (Just., A I, 51, 8 al.).—When Messianic woes have come to an end, τότε φανήσεται τὸ σημεῖον τοῦ υἱοῦ τ. ἀνθρώπου ἐν οὐρανῷ then the sign of the Human One (who is) in heaven will appear; acc. to the context, the sign consists in this, that he appears visibly in heavenly glory Mt 24:30.—Lampe s.v. 10b.

ⓒ as the abode of angels (Gen 21:17; 22:11; Ps.-Clem., Hom. 8, 12; TestAbr A 4 p. 80, 34 [Stone p. 8]; ParJer 3:2; ApcMos 38; Just., D. 57, 2) Mt 18:10a; 22:30; 24:36; 28:2; Mk 12:25; 13:32; Lk 2:15; 22:43; J 1:51; Gal 1:8; Rv 10:1; 18:1; 19:14; 20:1. Cp. Eph 3:15.—Lampe s.v. 7.

ⓓ Christians who have died also dwell in heaven (cp. Dio Chrys. 23 [40], 35 οὐρανοῦ καὶ τῶν ἐν αὐτῷ θείων κ. μακαρίων αἰώνιον τάξιν; Libanius, Or. 21 p. 459, 9 F. πόρρω τοῦ τὸν οὐρανὸν οἰκοῦντος χοροῦ; Oenomaus in Eus., PE 5, 33, 5; 12; Artem. 2, 68 p. 160, 25 τὰς ψυχὰς ἀπαλλαγείσας τῶν σωμάτων εἰς τὸν οὐρανὸν ἀνιέναι τάχει χρωμένας ὑπερβάλλοντι; Himerius, Or. 8 [=23], 23: the daemon of the dead holds the σῶμα of the dead person, τὴν ψυχὴν ὁ οὐρανός; Quintus Smyrn. 7, 88; TestAbr A 20 p. 103, 26 [Stone p. 54]; TestJob 39:13; ApcEsdr 7:3). Their life, τὸ ἀληθῶς ἐν οὐρανῷ ζῆν, stands in strong contrast to the ὄντως θάνατος, that leads to the everlasting fire Dg 10:7b. Rhoda, who greets Hermas from heaven Hv 1, 1, 4, need not have died (s. MDibelius, Hdb. ad loc.), and still she shows us that heaven is open to the devout. Furthermore, the true citizenship of Christians is in heaven (Tat. 16, 1 τὴν ἐν οὐρανοῖς πορείαν; s. πολίτευμα) Phil 3:20; cp. Dg 5:9. Their names are enrolled in heaven (s. βίβλος 2) Lk 10:20; Hb 12:23. In heaven there await them their glorified body 2 Cor 5:1f, their reward Mt 5:12; Lk 6:23, their treasure Mt 6:20; Lk 12:33, the things they hoped for Col 1:5, their inheritance 1 Pt 1:4. It is a place of peace Lk 19:38.—ἐκ τοῦ οὐρανοῦ the New Jerusalem (s. Ἱεροσόλυμα 2) will come down to earth Rv 3:12; 21:2, 10.

ⓔ The concept of a heaven in which God, attendant spirits of God, and the righteous dead abide, makes it easy to understand the taking over of certain OT expressions in which heaven is personified εὐφραίνεσθε οἱ οὐρανοί (cp. Is 44:23; 49:13; Mel., P. 98, 747) Rv 12:12; cp. 18:20; 9:3 (Is 1:2); 11:2 (Jer 2:12); 1 Cl 27:7 (Ps 18:2).

③ an indirect reference to God, God fig. ext. of 2 (s. βασιλεία 1b.—A common Hebrew practice, but not unknown among polytheists: Philippides Com. [IV/III B.C.] 27 νὴ τὸν οὐρανόν. Acc. to Clem. Al., Protr. 5, 66, 4 Θεόφραστος πῇ μὲν οὐρανὸν, πῇ δὲ πνεῦμα τὸν θεὸν ὑπονοεῖ=Theophrastus at one time thinks of God as heaven and at another time as spirit; Appian, Hann. 56 §233 σημεῖα ἐκ Διός [ln. 14 Viereck-R.]=ἐξ οὐρανοῦ [ln. 16]; JosAs 19:2; SEG XXVIII, 1251, 3 [III/IV A.D.; s. New Docs 3, 49f]). ἁμαρτάνειν εἰς τὸν οὐρ. sin against God Lk 15:18, 21. ἐξ οὐρανοῦ ἢ ἐξ ἀνθρώπων Mt 21:25; Mk 11:30f; Lk 20:4f. βασιλεία τῶν οὐρ. (GrBar 11:2) in Mt=βασιλεία τοῦ θεοῦ 3:2; 4:17; 5:3, 10, 19f; 7:21; 8:11; 10:7; 11:11f; 13:11, 24, 31, 33, 44f, 47, 52; 16:19; 18:1, 3f, 23; 19:12, 14, 23; 20:1; 22:2; 23:13; 25:1: J 3:5 v.l.; AcPl Ha 8, 31 (restored)=BMM verso 3.—B. 53; 1484. DELG. M-M. DLNT 439–43. EDNT. TW. Sv.