Florian Karsten Typefaces

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Variable Static
Weight
500
Italic
0
Leading
1.00
Tracking
0.000 %
AA Aa
Ligatures Case forms Tabular figures Oldstyle figures Slashed zero MORE
AA Aa
Size
3.20 vw
Leading
1.05
Tracking
-0.020 %
Die Columbia, der erste raumflugfähige Orbiter, wurde im März 1979 an die NASA ausgeliefert. Anschließend wurde die Raumfähre ins Kennedy Space Center überführt, um dort auf ihre erste Mission vorbereitet zu werden. Im November 1980 wurde die Columbia mit dem Außentank verbunden und einen Monat später zur Startrampe gefahren. Nach mehreren Startverschiebungen fand am 12. April 1981 der Start des ersten wiederverwendbaren Raumfahrzeuges der Welt statt. Ziel des ersten Fluges war es lediglich, die Columbia sicher in die Umlaufbahn und wieder zurück zu bringen. Der Flug dauerte insgesamt etwas über zwei Tage und endete mit einer Landung auf der Edwards Air Force Base in Kalifornien. Der Erstflug gilt bis heute als technische Meisterleistung, denn es war das erste Mal in der Geschichte der Raumfahrt, dass ein Trägersystem bei seinem Jungfernflug bemannt war. Die folgenden drei Flüge, die alle mit der Raumfähre Columbia durchgeführt wurden, dienten der Erprobung aller Systeme des Shuttle. Danach wurde das System als einsatzfähig erklärt. In den darauf folgenden 21 Missionen, die bis Januar 1986 durchgeführt wurden, stand der Satellitentransport im Vordergrund. Außerdem fanden einige rein wissenschaftliche Flüge statt, bevor es zum Challenger-Unglück kam. Am 28. Januar 1986 hob die Raumfähre Challenger bei einer ungewöhnlich niedrigen Außentemperatur von 2 °C zur Mission STS-51-L ab. Die NASA hatte sich für den Start entschieden, obwohl Ingenieure des Booster-Herstellers Morton Thiokol, vor allem Roger Boisjoly, vor einem Start bei Temperaturen unter 12 °C eindringlich gewarnt hatten. Das Management von Thiokol überstimmte jedoch schließlich seine Ingenieure und gab seinem wichtigsten Kunden NASA offiziell die Startfreigabe. Wenige Sekunden nach dem Start versagte tatsächlich ein Dichtungs-O-Ring der rechten Feststoffrakete, und durch das entstandene Leck trat heißes Verbrennungsgas an einer Seite des Boosters aus. Die Flamme traf auf den Außentank und die Befestigung der Feststoffrakete, wodurch die Tankhülle zerstört wurde. Der Tank explodierte 73 Sekunden nach dem Start in 15 Kilometern Höhe, worauf das Shuttle durch die enormen aerodynamischen Kräfte zerstört wurde. Die sieben Astronauten überlebten das wahrscheinlich, starben aber spätestens beim Aufschlagen der Cockpitsektion auf die Wasseroberfläche des Atlantiks.
AA Aa
Size
1.60 vw
Leading
1.37
Tracking
0.000 %
Columbia was named after the American sloop Columbia Rediviva which, from 1787 to 1793, under the command of Captain Robert Gray, explored the US Pacific Northwest and became the first American vessel to circumnavigate the globe. It is also named after the command module of Apollo 11, the first crewed landing on another celestial body. Columbia was also the female symbol of the United States. After construction, the orbiter arrived at Kennedy Space Center on March 25, 1979, to prepare for its first launch. Columbia was originally scheduled to lift off in late 1979, however the launch date was delayed by problems with both the RS-25 engine, as well as the thermal protection system. The first flight of Columbia was commanded by John Young, a veteran from the Gemini and Apollo programs who was the ninth person to walk on the Moon in 1972, and piloted by Robert Crippen, a rookie astronaut originally selected to fly on the military's Manned Orbital Laboratory spacecraft, but transferred to NASA after its cancellation, and served as a support crew member for the Skylab and Apollo-Soyuz missions. Columbia spent 610 days in the Orbiter Processing Facility, another 35 days in the Vehicle Assembly Building, and 105 days on Pad 39A before finally lifting off. It was successfully launched on April 12, 1981, the 20th anniversary of the first human spaceflight (Vostok 1), and returned on April 14, 1981, after orbiting the Earth 36 times, landing on the dry lakebed runway at Edwards Air Force Base in California. It then undertook three further research missions to test its technical characteristics and performance. Its first operational mission, with a four-man crew, launched on November 11, 1982. At this point Columbia was joined by Challenger, which flew the next three shuttle missions, while Columbia underwent modifications for the first Spacelab mission. In 1983, Columbia, under the command of John Young on what was his sixth spaceflight, undertook its second operational mission, in which the Spacelab science laboratory and a six-person crew was carried, including the first non-American astronaut on a space shuttle, Ulf Merbold. After the flight, it spent 18 months at the Rockwell Palmdale facility beginning in January 1984, undergoing modifications that removed the Orbiter Flight Test hardware and updating it to similar specifications as those of its sister orbiters.
AA Aa
Size
7.75 vw
Leading
1.05
Tracking
-0.035 %
En effet, Voyager 2 devait tourner sur elle-même à 360° afin de prendre diverses mesures.
AA Aa
Size
1.90 vw
Leading
1.35
Tracking
-0.005 %
Mariner 10 was the first spacecraft to make use of an interplanetary gravitational slingshot maneuver, using Venus to bend its flight path and bring its perihelion down to the level of Mercury's orbit. This maneuver, inspired by the orbital mechanics calculations of the Italian scientist Giuseppe Colombo, put the spacecraft into an orbit that repeatedly brought it back to Mercury. Mariner 10 used the solar radiation pressure on its solar panels and its high-gain antenna as a means of attitude control during flight, the first spacecraft to use active solar pressure control. The components on Mariner 10 can be categorized into four groups based on their common function. The solar panels, power subsystem, attitude control subsystem, and the computer kept the spacecraft operating properly during the flight. The navigational system, including the hydrazine rocket, would keep Mariner 10 on track to Venus and Mercury. Several scientific instruments would collect data at the two planets. Finally, the antennas would transmit this data to the Deep Space Network back on Earth, as well as receive commands from Mission Control. Mariner 10's various components and scientific instruments were attached to a central hub, which was roughly the shape of an octagonal prism. The hub stored the spacecraft's internal electronics. The Mariner 10 spacecraft was manufactured by Boeing. NASA set a strict limit of US$98 million for Mariner 10's total cost, which marked the first time the agency subjected a mission to an inflexible budget constraint. No overruns would be tolerated, so mission planners carefully considered cost efficiency when designing the spacecraft's instruments. Cost control was primarily accomplished by executing contract work closer to the launch date than was recommended by normal mission schedules, as reducing the length of available work time increased cost efficiency. Despite the rushed schedule, very few deadlines were missed. The mission ended up about US$1 million under budget.
AA Aa
Size
2.15 vw
Leading
1.22
Tracking
-0.010 %
Le système de contrôle d'attitude de la sonde a une défaillance en cours de mission. Les ingénieurs décident alors d'utiliser la pression des photons sur les panneaux solaires pour maintenir l'orientation de la sonde en limitant ainsi la quantité de carburant qui est nécessaire pour permettre aux propulseurs d'effectuer les corrections d'orientation nécessaires. À l'origine, Mariner 10 doit survoler Vénus et étudier son atmosphère (composition, structure, pression) et ses nuages, mais lors de la planification de sa trajectoire, les ingénieurs de la NASA se rendent compte qu'avec quelques ajustements, la sonde peut atteindre Mercure. Mariner 10 est le septième lancement réussi du programme Mariner. Le véhicule spatial vole trois fois vers Mercure sur une orbite héliocentrique rétrograde et restitue des images et des données sur la planète. Mariner 10 renvoie les toutes premières images en gros plan de Vénus et de Mercure. Les principaux objectifs scientifiques de la mission sont de mesurer les caractéristiques de l’environnement, de l’atmosphère, de la surface et du centre de la planète Mercure et de mener des recherches similaires sur Vénus. Les objectifs secondaires sont de réaliser des expériences dans le milieu interplanétaire et d'acquérir de l'expérience dans le cadre d'une mission d'assistance gravitationnelle sur deux planètes.
AA Aa
Size
2.95 vw
Leading
1.20
Tracking
-0.020 %
Yaklaşık 1969'da Pioneer ve onun kardeşi Pioneer 11 isimlerini yaşatmak için dizayn edildiler; kaşifler ilk defa ikisinden de bilgi toplama ve astroit kuşağındaki ve Jupiter'deki koşulların raporunu elde etmeyi tasarlıyordu. Pioneer 10, TRW yöntemiyle dizayn edildi. Hafifti, sadece 260 kg 30 ve 27 kg aletleri ve yakıtı sırasıyla. Voyager'lar benzeri olup radyo izotop termoelektrik jeneratörleri ile güçlendirilmiştir. Plütonyum-238 ihtiva eder, fırlatılışta 155W sağlar. RTG iyi bir şekilde vücudunun dışına monte edilmiş olup radyasyonun uzay aracı aletlerini karıştırmasını önler. Pioneer, 10 Aralık 1973'te Jüpiter ile karşılaşan ilk uzay aracı oldu. Uzay aracı daha sonra kayda değer bilimsel araştırmalar yaptı. Güneş Sistemi'nin dış bölgesinde 31 Mart 1997'de görevi bitene kadar. Kardeşi Pioneer 10 ve Pioneer 11 uzay sondaları üzerlerinde insanlığın mesajını içeren bir tabla taşımaktadır. Her iki sondadaki Jüpiter uçuşunu tasvir eden tablalar birbirinin aynıdır ancak Pioneer 11'in Satürn'e doğru yaptığı dönüş sonradan planlandığı için üzerindeki tablayı geçersiz kılmıştır. Eğer sonda sonsuz yolculuğu boyunca dünya dışı zeki varlıklarla karşılaşırsa aracın üzerindeki levha insanlık hakkında bilgi sağlamış olacak. Tabla, bir adam ve kadın tasvirinin yanı sıra Hidrojen atomunun bağ yapısını ve güneş ile dünyaya en yakın Pulsar yıldızlarını da baz alarak çizilen Güneş sistemi'nin galaksimizdeki koordinatı gösteren bir çizim içeriyor.

FK Grotesk Neue is a down-to-earth sans-serif typeface inspired by swiss typography titans Helvetica and Univers.

Despite clear references to the iconic shapes of the flowing lowercase “a” or the uppercase “R”, FK Grotesk Neue represents a contemporary, more mechanic and rigid approach to the neo-grotesque genre. Lower contrast, rather geometric outlines and wider proportions (courtesy of FK Grotesk) make the typeface a unique addition to the large group of common-looking utilitarian typefaces.

FK Grotesk Neue fully utilises OpenType features, including several stylistic alternates, thin punctuation set and wide range of numerals variants. FK Grotesk Neue supports Latin Extended-A character set (i.e. Western European, Central European and Southeastern European languages) as well as Vietnamese language. For complete specs see typeface specimen.

  • Designer

    Květoslav Bartoš

  • Publisher

    Florian Karsten Typefaces

  • Release date

    May 2020

  • Version

    1.1.7 (January 2022)

  • Formats

    Static (OTF, TTF, WOFF, WOFF2), Variable (TTF, WOFF, WOFF2)

  • Glyphs

    732

  • OpenType features

    Standard Ligatures, Case Sensitive Forms, Fractions, Numerators, Denominators, Scientific Inferiors, Superscript, Subscript, Oldstyle Figures, Lining Figures, Proportional Figures, Tabular Figures, Slashed Zero, Stylistic Sets (SS01–SS05)

  • Language support

    Afrikaans, Albanian, Asturian, Azerbaijani, Basque, Bemba, Bosnian, Breton, Catalan, Cornish, Croatian, Czech, Danish, Dutch, English, Esperanto, Estonian, Faroese, Fijian, Filipino, Finnish, French, Frisian, Friulian, Galician, Ganda, German, Hungarian, Icelandic, Indonesian, Irish, Italian, Kinyarwanda, Klingon, Latvian, Lithuanian, Luxembourgish, Makhuwa, Maltese, Norwegian, Polish, Portuguese, Romanian, Romansh, Sango, Scottish Gaelic, Serbian, Shona, Slovak, Slovenian, Somali, Spanish, Swahili, Swedish, Swiss German, Turkish, Uzbek, Vietnamese, Welsh, Zarma, Zulu

  • Licensing

    A basic license purchased via this website combines desktop and web license and covers installation on a given number of workstations within one organisation and allows you to self-host webfont files for a single domain with no time limitation for a given number of unique visitors per month. For more information about other licensing options, please check FAQ or get in touch.

Buy FK Grotesk Neue

Basic desktop + web license (up to 3 CPU, single domain up to 10k visitors/month)
For more information about other licensing options please check FAQ or get in touch.

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