74 Sentences With "put into orbit" | Random Sentence Generator

The satellite was put into orbit by the Hughes Aircraft company.

The long pole in the tent is what is put into orbit.

Shepard visited space, but he was not put into orbit around the Earth.

The more stuff we put into orbit, the higher the risk of collisions becomes.

In September 2016 the Tiangong-2 space lab was successfully launched and put into orbit.

Now, these satellites are smaller than pretty much anything ever put into orbit — an enviable innovation!

As satellites get more advanced, they get smaller — and as they get smaller, they are easier to put into orbit.

The giant test article stood next to a SpaceX Falcon 1 rocket, the first vehicle the company put into orbit.

International agreements prevent a project carried out by one nation to touch objects that were put into orbit by another country.

And more satellites are being put into orbit whose sole job is to watch what satellites from rival nations are doing.

The company's Electron rocket also put into orbit a previously undisclosed satellite made by Rocket Lab's CEO Peter Beck, called the Humanity Star.

Called GRACE-FO, the mission replaces the two original GRACE satellites, which were put into orbit in 29 and went offline last year.

These 60 satellites, launched on May 23rd, were just the first of nearly 12,000 satellites that SpaceX plans to put into orbit around Earth.

The two mini-satellites are just the first of a host of aircraft-tracking cubesats that the company is planning to put into orbit.

PST (1754 GMT) to put into orbit 4003 satellites for Iridium Communications Inc, which will use them to enhance mobile voice and data relay capabilities.

The explosion destroyed a $62 million SpaceX booster and a $200 million Israeli communications satellite that it was to put into orbit two days later.

The explosion destroyed a $62 million SpaceX booster and a$200 million Israeli communications satellite that it was to put into orbit two days later.

U.S. Strategic Command on Monday said it continued to track two objects put into orbit by North Korea, the rocket payload or satellite, and the rocket body.

Making sure these spacecraft come out of orbit in a timely manner is crucial because of the vast number of vehicles that SpaceX wants to put into orbit.

If OneWeb and Starlink succeed, the next decade will see nearly five times as many satellites put into orbit as all satellites launched since Sputnik 1 in 1957.

The spacecraft is the heaviest vehicle that the country has put into orbit, and and can reportedly carry up to six tons of supplies and two tons of fuel.

NASA's Osiris-Rex spacecraft was put into orbit around Earth by a rocket on Thursday, and then fired its engines to push it onto a path around the sun.

EDT (1115 GMT.) It will put into orbit a classified satellite for the U.S. National Reconnaissance Office, an agency within the Defense Department that operates the nation's spy satellites.

Swarm Technologies, still in stealth mode, appears to have gone ahead with the deployment of four satellites deemed too small to be tracked and therefore unsafe to put into orbit.

This new Long March rocket will soon be ferrying Chinese astronauts (aka taikonauts) to Tiangong-2, China's second crewed space station which was just put into orbit earlier this month.

If a handful of space companies succeed, the next decade will see more satellites put into orbit around the Earth than all the satellites launched since Sputnik 1 in 1957.

FRANKFURT (Reuters) - A Russian Proton rocket blasted off in Kazakhstan on Friday night to put into orbit both the first part of Europe's new space "data highway" and a Eutelsat communications satellite.

During the Apollo program, NASA realized that the same instruments it was using to provide scientific data for the moon landings could be put into orbit to look down at our own world.

It was supposed to be proof of concept for Japan's micro-satellite and mini-rocket technology, which JAXA hopes to commercialize as private companies seek cheaper options that are easier to put into orbit.

The launch, which was delayed from earlier this week because of weather, was supposed to be a proof of concept for Japan's micro-satellite and mini-rocket technology, which JAXA hopes to commercialize as private companies seek cheaper options that are easier to put into orbit.

The satellite "did not reach enough speed in the third stage and was not put into orbit," Mohammad Jahromi, the country's Minister of Communications and Information Technology, told the official IRNA news agency after a ceremony was held for the launch at Imam Khomeini Spaceport early Tuesday.

The launch followed an impressive run of successful paid missions - 20 in all since January 2017, when SpaceX returned to flight following a 2016 launchpad accident that destroyed a $62 million rocket and a $200 million Israeli communications satellite that it was to put into orbit two days later.

Related: Here's What We Know About North Korea's Rocket and the 'Satellite' It Put Into Orbit But a confidential UN report, seen by Reuters, concluded that North Korea continues to export ballistic-missile technology to the Middle East and ship arms and materiel to Africa in violation of UN restrictions.

Wind gusts of up to 25 mph (40 kph) at NASA's Kennedy Space Center in Florida forced SpaceX to scrub the launch of the Falcon 9 rocket that was to have put into orbit EchoStar XXIII, a commercial communications satellite for EchoStar Corporation, the privately owned company said on social network Twitter.

The payloads on the satellites Falcon Heavy put into orbit included an atomic clock NASA is testing for space navigation, another testing new telescope technologies, and a solar sail project part-funded by the Planetary Society, a non-profit organization headed by Bill Nye, popularly known as the "Science Guy" from his frequent U.S. TV appearances.

Tiangong-2 is a small space station that was put into orbit in 2016 to test a number of China's orbital technologies; it was originally planned to stay up there for two years, but as many a well-engineered piece of space kit has done, it greatly exceeded its expected lifespan and has been operational for more than a thousand days now.

A balloon satellite (also occasionally referred to as a "satelloon", which is a trademarked name owned by Gilmore Schjeldahl's G.T. Schjeldahl Company) is inflated with gas after it has been put into orbit.

The world's first artificial satellite, Sputnik 1, had been put into orbit by the Soviets in 1957. The next milestone in the history of space exploration would be to put a human in space, and both the Soviets and the Americans wanted to be the first.

RainCube RaInCube, also spelt as RainCube, is a 6U CubeSat made by NASA as an experimental satellite. It has a small radar and an antenna. It was put into orbit in May 2018 and was deployed from the International Space Station on June 25, 2018. It is currently in orbit.

By 1985, the first 11-satellite GPS Block I constellation was in orbit. Satellites of the similar Russian GLONASS system began to be put into orbit in 1982, and the system is expected to have a complete 24-satellite constellation in place by 2010. The European Space Agency expects to have its Galileo with 30 satellites in place by 2011/12 as well.

Much more recently, better measurements of the oblateness of Mars have been made by using radar from the Earth. Also, better measurements have been made by using artificial satellites that have been put into orbit around Mars, including Mariner 9, Viking 1, Viking 2, and Soviet orbiters, and the more recent orbiters that have been sent from the Earth to Mars.

The system, consisting of 7 satellites, was made operational in 1962. A navigator using readings from three satellites could expect accuracy of about 80 feet. On July 14, 1974 the first prototype Navstar GPS satellite was put into orbit, but its clocks failed shortly after launch. The Navigational Technology Satellite 2, redesigned with cesium clocks, started to go into orbit on June 23, 1977.

At the same time, the Mu program of large rockets was pursued. After four launch failures, an engineering test satellite was successfully put into orbit aboard a Lambda 4S-5 rocket. The satellite Ohsumi (named after a peninsula in Kagoshima Prefecture) marked Japan's first successful satellite launch. Subsequent improvements in the Mu class rocket enabled scientific satellite launches at a rate of one per year.

The launch also marked the 100th satellite successfully put into orbit by the ISRO. Originally, Cartosat-2E was published as the last Cartosat-2 satellite to be launched, as Cartosat-3 series spacecraft were scheduled to launch in 2018. Cartosat-2F was first listed on launch schedules as Cartosat-2ER, a name possibly indicating it was originally a replica of Cartosat-2E to be used as a spare.

Morelos I was Mexico's first communications satellite. It was built and put into orbit under a contract from the Secretariat of Communications and Transport (SCT), the federal ministry responsible for the nation's communications systems. Morelos I, a Hughes Aircraft Corporation HS-376, was launched by the U.S. space shuttle Discovery (mission STS-51-G) on 17 June 1985 and entered geostationary orbit at 113° W on 17 December 1985.

Nanosatellite - launch of the Angels project with CNES This activity was partly sold in April 2019 to the new company Hemeria. Nexeya developed the Hemeria range of nanosatellites. Angels, the first French industrial nanosatellite from this range, developed with the Cnes, will be put into orbit in late 2019. Nexeya will also be supplying Kineis with 20 nanosatellites for the first European nanosatellite satellite constellation dedicated to the Internet of Things.

One hour later, at 00:04 UTC, October 7, the first signals from the satellite were successfully received from the Australia ground station. On October 14, 2000, at around 03:00 UTC, N-SAT-110 reached the geostationary orbit. Once it was put into orbit, it was renamed as JCSAT-110 by JCSAT and Superbird-D by SCC. During 2008, JSAT Corporation and Space Communications Corporation merged into SKY Perfect JSAT Group.

Spaceway-1 was the heaviest commercial communications satellite 6080 kg ever put into orbit until iPSTAR-1 (6775 kg) was launched by Arianespace on 11 August 2005. T10 was co-located with Spaceway-1 in order to use the 500 MHz of unused spectrum for HDTV broadcasting. This spectrum was originally intended for the broadband internet capabilities of the two Spaceway satellites which were disabled by Hughes Network Systems at the request of DirecTV.

L-Star 2 was to be put into orbit in 1999. The project was planned to serve around 2 billion people in the Asia Pacific region, including India and China. Later ABCN enlisted DTAC's parent, United Communication Industry Plc (Ucom), to back its business. IEC also provided a bulk of the mobile-phone airtime to DTAC before purchasing the 1800 MHz frequency from DTAC to develop its own mobile-phone operator Wireless Communication Service (WCS).

Space and rocket equipment is considered to be among the most powerful source of the man-made impact on the global climate, environment and economies. There are 17 cosmodromes (space-vehicle launching sites or space centers) in the world. Over the period 1957 to 2001, 1189 space rockets were launched from Baikonur to put into orbit 1237 space ships on various assignments. These launches also included more than 100 intercontinental ballistic rockets.

But the next launch, Vanguard 1 on Vanguard TV-4 was successful and put into orbit the fourth artificial Earth orbital satellite and the first satellite to be solar powered.Vanguard I the World's Oldest Satellite Still in Orbit, accessed 24 September 2007 Gunter's Space Page, Vanguardyoutube.com, Vanguard Rocket Second Launch Attempt - 1958 US Navy Satellite Launch Failure - WDTVLIVE42, news reel footageNASA, Vanguard TV3BU NASA, NASA History Chapter 11 The failure was a setback in the space race, which let the Soviet Union gain.

Westar 1 (launched on April 13, 1974) has the distinction of being the USA's first commercially launched geosynchronous communications satellite, following North America's first geosynchronous communications satellite, Canada's Anik A1 in 1972. Westar 1 was put into orbit at 99° W in the Clarke belt (99° W now being the home of Galaxy 16). Westar 2 was launched shortly afterward on October 10, 1974. Westar 3, the first satellite to use TDMA switched data, was launched on August 10, 1979.

On 7 February 2016, North Korea successfully launched a long-range rocket, supposedly to place a satellite into orbit. Critics believe that the real purpose of the launch was to test a ballistic missile. The launch was strongly condemned by the UN Security Council. A statement broadcast on Korean Central Television said that a new Earth observation satellite, Kwangmyongsong-4, had successfully been put into orbit less than 10 minutes after lift-off from the Sohae space center in North Phyongan province.

Space launch vehicle Volna ( "wave"), is a converted Submarine-launched ballistic missile used for launching satellites into orbit. It is based on the R-29R designed by State Rocket Center Makayev and related to the Shtil' Launch Vehicle . The Volna is a 3-stage launch vehicle that uses liquid propellant. The warhead section is used for the payloads that can be either put into orbit with the help of an additional boost engine or travel along a sub-orbital trajectory to be recovered at the landing site.

To this end, INTA teamed up with private enterprises and universities to acquire funds and resources. Nonetheless, emphasis was also put on keeping the costs to a minimum and to ensure affordability.M. A. Garcia Primo, “Spanish MINISAT Program - Objectives and Operational Results,” Proceedings of the 4th International Symposium on Small Satellites Systems and Services, Sept. 14-18, 1998, Antibes Juan les Pins, France The initial program was supposed to involve at least four minisatellites (Minisat 1 to 4) but only Minisat 01 was put into orbit.

He is known for his contributions to the creation of aircraft engines, mounted on the Lavochkin La-5, Lavochkin La-7, and other mass wartime aircraft. In 1946-1965, Kosberg supervised the development of a series of liquid fuel rocket engines, which would be mounted on the final stages of carrier rockets and put into orbit piloted spacecraft, satellites, and interplanetary automatic space stations. Semyon Kosberg was awarded the Lenin Prize (1960), Order of Lenin, three other orders and different medals. A crater on the far side of the Moon is named after him.

It was intended primarily to observe the Sun, which it did very well during its 2-year lifetime, but it also detected a flaring episode from the source Sco X-1 and measured the diffuse cosmic X-ray background. OSO 5 was launched on January 22, 1969, and lasted until July 1975. It was the 5th satellite put into orbit as part of the Orbiting Solar Observatory program. This program was intended to launch a series of nearly identical satellites to cover an entire 11-year solar cycle.

While at Howard, Mouton was president of the Kelly Miller Chapter of Future Teachers of America and a member of the NAACP, the Mathematics Club, and the Delta Sigma Theta sorority. She also was on the Dean's Honor Roll for four years, and was selected for the 1949-1950 Who’s Who among Students in American Universities and Colleges. She started working for NASA in 1959, after working for the Army Map Service and the Census Bureau. The following year, Echo 1 was put into orbit, and Mouton lead a team of NASA mathematicians (known as "computers") in tracking its orbit.

Decades later a project named Communication Moon Relay was a telecommunication project carried out by the United States Navy. Its objective was to develop a secure and reliable method of wireless communication by using the Moon as a passive reflector and a natural communications satellite. The first artificial Earth satellite was Sputnik 1. Put into orbit by the Soviet Union on October 4, 1957, it was equipped with an on-board radio-transmitter that worked on two frequencies: 20.005 and 40.002 MHz. Sputnik 1 was launched as a major step in the exploration of space and rocket development.

During the 1960s and 1970s, a number of efforts were made to develop a British satellite launch capability. A British rocket named Black Arrow did succeed in placing a single British satellite, Prospero, into orbit from a launch site in Australia in 1971. Prospero remains the only British satellite to be put into orbit using a British vehicle. The British National Space Centre was established in 1985 to co-ordinate British government agencies and other interested bodies in the promotion of British participation in the international market for satellite launches, satellite construction and other space endeavours.

The telescope listened in on its facsimile transmission of photographs from the moon's surface. The photos were sent to the British press – the probe transmitted, likely intentionally to increase chances of reception, in the international format for image transmission by newswire – and published before the Soviets themselves had made the photos public.Lovell, Story of Jodrell Bank, p. 250 The telescope tracked Luna 10, a Russian satellite put into orbit around the Moon, in April 1966, and Zond 5 in September 1968, a Russian probe that was launched at the moon, around which it sling-shotted before returning to Earth.

SAC-A satellite in space INVAP was the first company in Latin America certified by NASA (the US (National) Aeronautics and Space Administration) to supply space technologies.Company Profile It constructs satellites, payloads, and ground stations, including the SAC ("Satelites de Aplicación Científica") satellite family, developed for the Argentine space agency CONAE. INVAP was the first company in Latin America to provide design, development, mission control and operational support.Space Area The SAC-D was put into orbit on June 9, 2011, carrying several scientific payloads, including NASA's $100 million Aquarius project, which will measure the oceans' salinity.

All satellites were put into orbit using the Long March rockets, most of them by the CZ-2C type. A novel feature of the spacecraft's reentry module was the use of a natural material, impregnated oak, as the ablative material for its heat shield. The achievement of a recoverable satellite landing technology placed China in third after the Soviet Union and the United States in the global space race. It was the basis for the second Chinese crewed space program (period of 1978-1980), the third crewed program Project 863 (the late 1980s), and the current Shenzhou program (since 1992).

Critics suggest that the real purpose of the launch was test a ballistic missile. The launch was strongly condemned by the UN Security Council. A statement broadcast on Korean Central Television said that a new Earth observation satellite, Kwangmyongsong-4, had successfully been put into orbit less than 10 minutes after lift-off from the Sohae space centre in North Phyongan province. North Korea's National Aerospace Development Administration stated the launch was "an epochal event in developing the country's science, technology, economy and defence capability by legitimately exercising the right to use space for independent and peaceful purposes".

The major phases of the flight included the first stage burn-out at 104 seconds, the strap on burn-out at 150 seconds, ignition of the second stage at 150 seconds, heat shield separation at an altitude of 115 km and 227 seconds into the flight, second stage burn-out at 288 seconds, ignition of the 12.5 tonne cryogenic stage at 304 seconds and its shut down at 999 seconds after attaining the required velocity of 10.2 km per second. EDUSAT was put into orbit at 1014 seconds about 5000 km away from Sriharikota. The separated cryogenic stage was subsequently reoriented and passivated.

The 4 Galileo FOC-M8 satellites were built by OHB System in Bremen, Germany for the European Commission's Galileo programme under the supervision of the ESA. They had a mass at liftoff of about each, that is a total of approximately . They are assigned to the constellation's orbital plane B, where they are providing additional coverage and performance to the now complete initial constellation composed of 24 operational satellites plus 2 in-orbit spares, all of which having been put into orbit by Arianespace. The satellites, numbered 23, 24, 25 and 26, are named respectively Tara, Samuel, Anna and Ellen, after children who won the European Commission's Galileo drawing competition.

The original idea of a Chinese satellite navigation system was conceived by Chen Fangyun and his colleagues in the 1980s. The risk of denied access to GPS, including an alleged case in 1996 during the Third Taiwan Strait Crisis, gave impetus to the creation of BeiDou. According to the China National Space Administration, in 2010, the development of the system would be carried out in three steps: # 2000–2003: experimental BeiDou navigation system consisting of three satellites # By 2012: regional BeiDou navigation system covering China and neighboring regions # By 2020: global BeiDou navigation system The first satellite, BeiDou-1A, was launched on 30 October 2000, followed by BeiDou-1B on 20 December 2000. The third satellite, BeiDou-1C (a backup satellite), was put into orbit on 25 May 2003.

This is possible due to the Organization perfecting the regeneration process, now called 'revival', which also gave Sadi complete memory recovery and a permanent 20-year-old body. From Sadi, whom Joshua had met as a woman after the Eurowar and was partnered with when Sadi was male during the War of the Memes, Joshua learns that it's possible to go through the singularity to 1988, when the technology to construct it was first built and put into orbit by the Soviets. By the time of the novel's frame story, Sadi has done this thirty times, each time changing history to his/her benefit. After Joshua's revival and a time as Sadi's lover, Joshua, who's repeatedly refused to accompany Sadi on these excursions through the singularity, (also known as a closed timelike curve), is sent by her via force on a preset course through the singularity once more.

Since 1993 the development of four-chamber LOX-kerosene LRE RD-0124, 14D23 (the chief designers — V. Koselkov and V. Gorokhov, the lead designers — V. Borodin, A. Plis and V. Gurin) for the third stage of the general designer D. Koslov "Soyuz-2" launch vehicle has been conducted. The main engine destination — delivery into the orbit of different payloads: satellites, cargo and manned space vehicles. RD-0124 engine is developed as substitution for RD-0110. It has the practically identical interfaces, overall dimensions and mass, but it offers the higher specific parameters — the best of the developed LRE of this class. The engine operates according to oxidizer rich stage combustion cycle and has higher (on 33 s) efficiency compared to RD-0110. This will allow to put into orbit larger payloads (~ 950 kg) or to ensure launching of "Sojuz-2" launch vehicle from spaceports located to the north of Baikonur.

The OneWeb satellite constellation (formerly WorldVu) was a planned initial 650-satellite constellation that was in the process of being completed in 2019–2020, with a goal to provide global satellite Internet broadband services to people everywhere, initially aiming to start global services in 2021. The constellation was being deployed by OneWeb, formerly known as WorldVu Satellites and headquartered in London, with offices in California, Florida, Virginia, Dubai and Singapore. OneWeb declared bankruptcy in late March 2020 and laid off most of their employees, but maintained the satellite operations center for the 68 satellites already in orbit while the court determined the disposition of OneWeb's assets. 74 satellites were launched before the bankruptcy. The first six test satellites were launched in February 2019; the first large batch of 34 satellites was launched in February 2020, and another 34 were put into orbit in March 2020.

The Director of the Los Alamos National Laboratory, Norris Bradbury (left), in front of the Kiwi B4-A reactor LASL's original objective had been a 10,000 MW nuclear rocket engine capable of launching into a orbit. This engine was codenamed Condor, after the large flying birds, in contrast to the small flightless Kiwi. However, in October 1958, NASA had studied putting a nuclear upper stage on a Titan I missile, and concluded that in this configuration a 1,000 MW reactor upper stage could put into orbit. This configuration was used in studies of Nova, and became the goal of Project Rover. LASL planned to conduct two tests with Kiwi B, an intermediate 1,000 MW design, in 1961 and 1962, followed by two tests of Kiwi C, a prototype engine, in 1963, and have a reactor in-flight test (RIFT) of a production engine in 1964.

Solrad 9 was particularly important among the Solrad series satellites because thanks to the collected data were useful to predict the behavior of the sun during the period of the first manned missions of the Apollo Program, starting from the first, Apollo 7, it is therefore useful to draw up a mission program to ensure, from this point of view, the safety of astronauts. It recorded important data on one of the strongest solar storms that occurred between Apollo 9 and Apollo 10 and which would have produced potentially hazardous (to even fatal) effects to astronauts had then been in space (if the spacecraft were outside the Earth's protective magnetosphere) at the time. As of July 1971, it was decided to use the Solrad 10 memory data, put into orbit on the 8th of the same month, and so continued until June 1973, when the Solrad 10 data storage device had a bad operation and NASA began to read data from the memory of Solrad 9.

They live there for years, joined by many other Oms, and, due to the knowledge acquired from Terr's headset, manage to replicate Draag technology, including two rockets; they hope to leave Ygam for its moon, the Wild Planet, and live there safe from Draags. When a large-scale Draag purge hits the depot and many Oms are slaughtered, a group led by Terr uses the rockets to flee to the Wild Planet, where they discover large statues that Draags travel to during meditation and use to meet beings from other galaxies in a strange ritual that maintains their species. The Oms destroy some of the statues, threatening the Draags' existence; the genocide is halted on Ygam, and, facing a crisis, the Draags sue for peace. The Oms agree to leave the Wild Planet to the Draags for their meditations, and in return, an artificial satellite is put into orbit around Ygam and is given to the Oms as a new home.

In 1959, the vice president of the Housing and Home Components department at Loewy/Snaith, Andrew Geller was the design supervisor for the exhibition, the "Typical American House," built at the American National Exhibition. The exhibition home largely replicated a home previously built at 398 Townline Road in Commack, New York, which had been originally designed by Stanley H. Klein for the Long Island-based firm All-State Properties, headed by developer Herbert Sadkin. To accommodate visitors to the exhibition, Sadkin hired Loewy's office to modify Klein's floor plan. According to one version of how the house got its name, Geller supervised the work, which "split" the house, creating its nickname"Splitnik,"and a way for large numbers of visitors to tour the small house. In another version, it's said that [t]he Russians called the house the “Splitnik,” [as] a pun on “Sputnik,” the name of the satellite the Soviets had put into orbit two years before.