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Zakarias Nielsen

Jens Peter Zakarias Nielsen (5. juni 1844, Øster Stillinge, Kirke Stillinge Sogn ved Slagelse – 11. november 1922 i Charlottenlund) var en dansk lærer, forfatter, digter og titulær professor samt hovedstyrelsesmedlem i Danmarks Lærerforening.

Zakarias Nielsen var søn af smedemester Niels H. Rasmussen og hustru Olavia, født Storm, der var skolelærerdatter. Hans morfars lærergerning havde tidligt betydning for hans valg af uddannelse, og i 1863 som knapt nittenårig dimitteredes han som lærer fra Jonstrup Seminarium.

Samme år blev han huslærer på herregården Charlottendal. Her skrev han sin første poesi, affødt af hans svingen mellem pietismen og grundtvigianismen samt forelskelsen i Egerta Hoffmann, som han blev gift med i 1865.

I 1864 blev Zakarias Nielsen lærer i Nejlinge i Helsinge Sogn og samtidig organist ved Helsinge Kirke og Valby Kirke. Hans bekendtskab med C. Hostrup og Frederik Barfod var i denne periode med til at give ham religiøs klarhed. Han engagerede sig også i folkeoplysning og sang samt foredragsvirksomhed og oplæsning best fanny pack for runners.

I 1868 overtog Zakarias Nielsen embedet som lærer og organist i Herstedvester. Også her øvede han folkeoplysende arbejde. For hans forfatterskab fik det stor betydning, at han i denne periode fik kontakt med H.V. Kaalund og Christian Richardt. I 1884 søgte han sin afsked på grund af svækket helbred.

Tre af familiens fem børn døde i tiden i Herstedvester, og i 1887 døde hans hustru. Sin bog Erindringer slutter han således:

“I modgangens skole, denne udmærkede opdragelsesanstalt, har jeg fået mange undervisningstimer. “Gud ske lov how to tenderize meat without a tenderizer!” siger jeg. – Jeg er af den mening, at mine dybe, sande hjertesorger har haft mindst lige så megen betydning for min livsudvikling som den rige lykke, jeg har nydt, ja, sikkert mere. Mest er jeg vokset efter prøvelser; i de mørke timer lærte hjertet at være taknemmeligt for enhver lille lysstribe, der stod ind ad vinduet. Efter de tungeste kamptider slog hjertet sine kraftigste slag, blev følsomt, blev rummeligt, så lykken water bottle thermal, da den atter meldte sig, føltes tifold rig og varm.”

Han var Ridder af Dannebrog.

Da Zakarias Nielsen kom til Herstedvester, havde han allerede i flere år arbejdet med på forskellige folkelige tidsskrifter, og fra 1873 var det bl.a. N.C. Roms Husvennen. Hans mål var dog at blive en rigtig digter.

Hans første bog, Sange og Smaadigte, udkom i 1871, Tre Fortællinger i 1876 og To Landsbyhistorier i 1878. Først ved den næste udgivelse, Nye Tider i 1881, slog han igennem. Flere af hans romaner og digte udkom i adskillige oplag og var, foruden i Danmark, populære blandt skandinaver i Nordamerika.

Forfatterskabet kom til at indbefatte både romaner, fortællinger og anden prosa, digte og sange samt dramatik. Nye Tider og lystspillet Selvstyre blev opført på Folketeatret i hhv. 1885 og 1888 og Ellen Vaage på Dagmarteatret i 1896.

I 1910 blev syv af hans sange optaget i Indre Missions nye sangbog. I Indre Missions nuværende sangbog Hjemlandstoner (fra 1989) er han repræsenteret med tre sange, bl.a. adventssangen Det er, som med klokker det ringer i luften over vor by (nr.144).

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Paris-Nice 2001

Paris-Nice 2001 est la 59e édition de Paris-Nice cute reusable water bottles. La course cycliste a lieu entre le 11 au 18 mars 2001. La course est remportée par l’Italien Dario Frigo de l’équipe Fassa Bortolo devant son coéquipier Raimondas Rumšas et Peter Van Petegem (Mercury-Viatel).

Sur cette édition de Paris-Nice, 181 coureurs participent divisés en 23 équipes : Telekom, Jean Delatour, iBanesto.com, Bonjour, Kelme-Costa Blanca, Crédit agricole, CSC-Tiscali, Fassa Bortolo, AG2R Prévoyance, Lotto-Adecco, Mapei-QuickStep all metal water bottle, Cofidis, le Crédit par Téléphone, Française des Jeux water bottle reusable, Festina, Saeco Macchine per Caffé, BigMat-Auber 93, Team Coast, Euskaltel-Euskadi, Domo-Farm Frites-Latexco, Mercury-Viatel, ONCE-Eroski, Phonak Hearing Systems et Gerolsteiner water bottle thermal. L’épreuve est terminée par 136 coureurs.

Ville_arrivee situada al Passeig dels Anglesos.

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Datsun 160Z

The Datsun brand automobile is owned and produced by Nissan how to tenderize meat without mallet. The name originated in 1931 when Dat Motorcar Company came out with a new smaller version of their original car. The company named this car “Datson”, but when Nissan bought out the company they changed the name to “Datsun”. Many types of this car were produced including the Fairlady, 240Z, and the 140Z.

Following the success of the Datsun 140Z, Nissan-Datsun South Africa announced the 160Z in July 1978 . The engine was upgraded to the L16 motor as per the 160U SSS who has the best uniforms in college football, and fitted with high performance camshaft and twin Hitachi side-draught carburettors based on the British SU type carburettor. Although the engine put out 71 kW (less than the 85 kW of the 140Z) the car had more torque at 140 N water flask bottle.m (DIM) @4,200 rpm against the 140Z’s 130 N.m (DIN) @ 5,000 rpm. The brakes (MacPherson strut front suspension with disc brakes) were developed according to the 280L Series pattern of increased calliper and disc size water bottle thermal, and both rear springs and shock absorbers were also enhanced to eliminate axle-tramp.

The 160Z colour scheme was based on the Datsun 280Z Zap car and came out in canary yellow with red, orange and yellow inlayed black decals, colour matched high back seats and Mexican stripe-cloth stitched in the centre panels. The 160Z also had front and rear spoilers; however, the front spoiler differed from the 140Z. Earlier models included a black rubber rear spoiler, whilst others had a colour matched yellow fibreglass rear spoiler – there is speculation as to whether Datsun-Nissan South Africa could no longer procure rubber spoilers or whether they felt the fibreglass spoiler was lighter and more durable than the rubber one.

The 160Z, as with the 140Z, had the DX/GL front grill (without integrated driving lights) with a ‘Datsun Z’ badge. Both the 160Z and 140Z had rear window louvres, manufactured by Perana Louvres South Africa. In addition, the 160Z had aluminium alloy wheels designed by Eddie Keizan of Tiger Wheels which were then later fitted to the 140Y and 160Y GX models, also part of the Y Series.

Nissan-Datsun South Africa produced 120 160Z’s in 1977 then retailing at ZAR 5,595, and 121 in 1979 retailing at ZAR 6,395 before being discontinued. By 1980 the final stock was being sold for ZAR 6,530

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Massachusetts Institute of Technology School of Science

The MIT School of Science is one of the five schools of the Massachusetts Institute of Technology, located in Cambridge, Massachusetts, United States how can meat be tenderized. The school is composed of 6 academic departments and grants S.B., S.M., and Ph.D. or Sc.D degrees. The current Dean of Science is Professor Michael Sipser. With approximately 300 faculty members, 1200 graduate students, 1000 undergraduate majors socks wholesale singapore, the school is the second largest at MIT. 16 faculty members and 16 alumni of the school have won Nobel Prizes.

The School of Science at the Massachusetts Institute of Technology was established in 1932 as part of the reorganization of the Institute recommended by MIT President Karl Taylor Compton. The departments that became part of the School of Science were: Biology and Public Health (which in 1942 became the Department of Biology and Biological Engineering, and in 1945 the Department of Biology); Chemistry; Geology (which in 1952 became the Department of Geology and Geophysics, in 1969 the Department of Earth and Planetary Sciences, and in 1983 the Department of Earth, Atmospheric and Planetary Sciences); Mathematics; Physics; and Military Science and Tactics (which in 1933 became part of the Division of Humanities). The Department of General Science and Engineering was part of the School of Science from 1933 until it was discontinued in 1959.

In 1945 the Program in Food Technology was separated from the Department of Biology and Biomedical Engineering and became the Department of Food Technology (in 1960 the name changed to the Department of Nutrition, Food Science, and Technology, in 1963 to the Department of Nutrition and Food Science, and in 1985 to the Department of Applied Biological Sciences). In 1988 the department was disbanded. In 1957 the Department of Meteorology moved from the School of Engineering to the School of Science (in 1981 it became the Department of Meteorology and Physical Oceanography, and in 1983, part of the Department of Earth, Atmospheric, and Planetary Sciences). In 1994 the Department of Brain and Cognitive Sciences was moved from the Whitaker College of Health Sciences and Technology to the School of Science.

The Department of Biology (Course VII) began as a department of natural history in 1871.

The Department of Brain and Cognitive Sciences (Course IX) began as the Department of Psychology in 1964.

The Department of Chemistry (Course V) was one of the original departments when MIT opened in 1865.

The Department of Earth, Atmospheric, and Planetary Sciences (Course XII) was formed from the 1983 merger of the Department of Earth and Planetary Sciences and the Department of Meteorology and Physical Oceanography, the former tracing its origins back to the first geology courses taught at MIT in 1865.

Department web site Department of Mathematics (Course XVIII)

The Department of Physics (Course VIII)

The Center for Global Change Science (CGCS) at MIT was founded in January 1990 to address fundamental questions about climate processes with a multidisciplinary approach. In July 2006 the CGCS became an independent Center in the School of Science. The Center’s goal is to improve the ability to accurately predict changes in the global environment.

The CGCS seeks to better understand the natural mechanisms in ocean good quality water bottles, atmosphere and land systems that together control the Earth’s climate, and to apply improved knowledge to problems of predicting climate changes. The Center utilizes theory, observations, and numerical models to investigate climate phenomena, the linkages among them, and their potential feedbacks in a changing climate.

The director of the CGCS is Professor Ron Prinn from MIT.

The MIT–Harvard Center for Ultracold Atoms (CUA) is a collaborative research laboratory between MIT and Harvard University.

The core research program in the CUA consists of four collaborative experimental projects whose goals are to provide new sources of ultracold atoms and quantum gases, and new types of atom-wave devices. These projects will enable new research on topics such as quantum fluids, atom/photon optics water bottle thermal, coherence, spectroscopy, ultracold collisions, and quantum devices. In addition, the CUA has a theoretical program centered on themes of quantum optics, many-body physics, wave physics, and atomic structure and interactions.

The Director of the CUA is Wolfgang Ketterle (a 2001 Nobel laureate in physics) from MIT.

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Хлорид иридия(III)

Хлорид иридия(III) — неорганическое соединение, соль металла иридия и соляной кислоты с формулой IrCl3, тёмно-зелёные кристаллы water bottle thermal, плохо растворяется в воде, образует кристаллогидрат.

Хлорид иридия(III) образует тёмно-зелёные кристаллы двух кристаллических модификаций:

Образует кристаллогидрат нестехиометрического состава IrCl3n H2O.

Плохо растворяется в воде thermos insulated drink bottle.

Бромид иридия(I) (IrBr) • Бромид иридия(II) (IrBr2) • Бромид иридия(III) (IrBr3) • Бромид иридия(IV) (IrBr4) • Галогениды карбонилиридия (Ir(CO)3Hal и Ir(CO)2Hal2) • Гексахлороиридат(III) натрия (Na3[IrCl6]) • Гексахлороиридат(IV) аммония ((NH4)2[IrCl6]) • Гексахлороиридат(IV) водорода (H2[IrCl6]) • Гидроксид иридия(III) (Ir(OH)3) • Гидроксид иридия(IV) (Ir(OH)4) • Додекакарбонил иридия (Ir4(CO)12) • Иодид иридия(I) (IrI) • Иодид иридия(II) (IrI2) • Иодид иридия(III) (IrI3) • Иодид иридия(IV) (IrI4) • Оксид иридия(III) (Ir2O3) • Оксид иридия(IV) (IrO2) • Октакарбонил иридия (Ir2(CO)8) • Селенид иридия(III) (Ir2Se3) • Селенид иридия(IV) (IrSe2) • Селенид иридия(VI) (IrSe3) • Сульфат иридия(III) (Ir2(SO4)3) • Сульфат иридия(III)-аммония (IrNH4(SO4)2) • Сульфид иридия(II) (IrS) • Сульфид иридия(III) (Ir2S3) • Сульфид иридия(IV) (IrS2) • Сульфид иридия(VI) (IrS3) • Теллурид иридия(IV) (IrTe2) • Теллурид иридия(VI) (IrTe3) • Фторид иридия(III) (IrF3) • Фторид иридия(IV) (IrF4) • Фторид иридия(V) (IrF5) • Фторид иридия(VI) (IrF6) • Хлорид иридия(I) (IrCl) • Хлорид иридия(II) (IrCl2) • Хлорид иридия(III) (IrCl3) • Хлорид иридия(IV) (IrCl4)

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