|Headquarters||Hawthorne, California, U.S.
(CEO and CTO)
(President and COO)
(CTO of Propulsion)
|Services||Orbital rocket launch|
Number of employees
|Footnotes / references
Space Exploration Technologies Corporation, better known as SpaceX, is an American aerospace manufacturer and space transport services company headquartered in Hawthorne, California, United States. It was founded in 2002 by Tesla CEO and former PayPal entrepreneur Elon Musk with the goal of creating the technologies to reduce space transportation costs and enable the colonization of Mars. It has developed the Falcon 1 and Falcon 9 launch vehicles, both designed to be reusable, and the Dragon spacecraft which is flown into orbit by the Falcon 9 launch vehicle to supply the International Space Station (ISS) with cargo. A manned version of Dragon is in development.
SpaceX's achievements include the first privately funded, liquid-propellant rocket (Falcon 1) to reach orbit, in 2008; the first privately funded company to successfully launch, orbit and recover a spacecraft (Dragon), in 2010; and the first private company to send a spacecraft (Dragon) to the ISS, in 2012. The launch of SES-8, in 2013, was the first SpaceX delivery into geosynchronous orbit, while the launch of the Deep Space Climate Observatory (DSCOVR), in 2015, was the company's first delivery beyond Earth orbit.
SpaceX began a privately funded reusable launch system technology development program in 2011 and, in December 2015, successfully returned a first stage back to a landing pad near the launch site and accomplished a propulsive vertical landing. This was the first such accomplishment by a rocket on an orbital trajectory. On April 8, 2016, with the launch of CRS-8, SpaceX successfully vertically landed a first stage on an ocean drone-ship landing platform on a mission that also delivered a Dragon space capsule to Low Earth Orbit. On May 6, 2016, SpaceX again landed a first stage, but on a geostationary transfer orbit mission, another first.
NASA awarded the company a Commercial Orbital Transportation Services (COTS) contract in 2006, to design and demonstrate a launch system to resupply cargo to the International Space Station (ISS). SpaceX, as of July 2016[update] has flown nine missions to the ISS under a cargo resupply contract. NASA also awarded SpaceX a contract in 2011 to develop and demonstrate a human-rated Dragon as part of its Commercial Crew Development (CCDev) program to transport crew to the ISS.
In September 2016, SpaceX's CEO Elon Musk unveiled substantial parts of the launch vehicle, spacecraft, and mission architecture of the Interplanetary Transport System program, an ambitious privately funded initiative to develop spaceflight technology for use in interplanetary spaceflight, and which, if demand emerges, could lead to sustainable human settlements on Mars over the very long term.
- 1 History
- 2 Facilities
- 3 NASA collaborations
- 4 Other contracts
- 5 Commercial and government launch contracts summary
- 6 Space vehicles
- 7 Rocket engines
- 8 See also
- 9 References
- 10 Further reading
- 11 External links
In 2001, Musk conceptualized "Mars Oasis", a project to land a miniature experimental greenhouse on Mars, containing seeds with dehydrated gel, to hydrate the gel and to grow plants on Martian soil, "so this would be the furthest that life’s ever traveled" in an attempt to regain public interest in space exploration and increase the budget of NASA. But Musk realized that even with a much larger space budget, travel to Mars would be prohibitively expensive without a fundamental breakthrough in rocket technology In October 2001, Musk travelled to Moscow with Jim Cantrell (an aerospace supplies fixer), and Adeo Ressi (his best friend from college), to buy refurbished ICBMs (Dnepr) that could send the envisioned payloads into space. The group met with companies such as Lavochkin and ISC Kosmotras. However, according to Cantrell, Musk was seen as a novice and was consequently spat on by one of the Russian chief designers, and the group returned to the US empty-handed. In February 2002, the group returned to Russia to look for three ICBMs, bringing Mike Griffin, who had worked for the CIA’s venture capital arm, In-Q-Tel; NASA's Jet Propulsion Laboratory; and was just leaving Orbital Sciences Corporation, a maker of satellites and spacecraft. The group met again with Kosmotras, and were offered one rocket for US$8 million. However, this was seen by Musk as too expensive; Musk consequently stormed out of the meeting. On the flight back from Moscow, Musk realized that he could start a company that could build the affordable rockets he needed. According to early Tesla and SpaceX investor Steve Jurvetson, Musk calculated that the raw materials for building a rocket actually were only 3 percent of the sales price of a rocket at the time. By applying vertical integration—principally for cost reasons; around 85% of the entire Falcon/Dragon vehicle is produced in-house— and the modular approach from software engineering (Falcon 9 uses 9 of the Merlin engines, which were tested on the single engine Falcon 1, Falcon Heavy uses three Falcon 9 booster stages), SpaceX could cut launch price by a factor of ten and still enjoy a 70 percent gross margin.  For example, SpaceX had to design a machine that could friction stir weld aluminium-lithium alloy for the airframe of the Falcon 9, because such a machine did not exist anywhere in the world. According to Musk, SpaceX started with the smallest useful orbital rocket (Falcon 1 with about half a ton to orbit), instead of building a more complex and riskier launch vehicle, which could have failed and bankrupted the company.
In early 2002, Musk was seeking staff for his new space company, soon to be named SpaceX. Musk approached renowned rocket engineer Tom Mueller (now SpaceX's CTO of Propulsion), Mueller agreed to work for Musk and SpaceX was born. SpaceX was first headquartered in a 75,000 square feet warehouse in El Segundo, California. Musk decided SpaceX's first rocket would be named Falcon 1, a nod to Star Wars' Millennium Falcon. Musk planned for Falcon 1's first launch to occur in November 2003, 15 months after the company started.
On August 4, 2008, SpaceX accepted a further $20 million investment from Founders Fund. In early 2012, approximately two-thirds of the company were owned by its founder and his 70 million shares were then estimated to be worth $875 million on private markets, which roughly valued SpaceX at $1.3 billion as of February 2012. After the COTS 2+ flight in May 2012, the company private equity valuation nearly doubled to $2.4 billion.
On 16 June 2009, SpaceX announced the opening of its Astronaut Safety and Mission Assurance Department. It hired former NASA astronaut Ken Bowersox to oversee the department as a vice president of the company. However, it has since been reported that the former astronaut subsequently left SpaceX in late 2011. No reason was given and no replacement in that position has been announced.
In 2010, Musk's calculations convinced him that the colonization of Mars was possible.
In 2012, an initial public offering (IPO) was perceived as possible by the end of 2013, but then Musk stated in June 2013 that he planned to hold off any potential IPO until after the "Mars Colonial Transporter [later renamed the Interplanetary Transport System] is flying regularly," and this was reiterated in 2015 indicating that it would be many years before SpaceX would become a publicly traded company, where Musk stated that "I just don’t want [SpaceX] to be controlled by some private equity firm that would milk it for near-term revenue"
The company has grown rapidly since it was founded in 2002, growing from 160 employees in November 2005 to more than 500 by July 2008, to over 1,100 in 2010, 1,800 in early 2012, and 3,000 by early 2013. The company had grown to 3,800 employees and contractors by October 2013, and had "nearly 5,000" in late 2015 and February 2016.
The first stage of the launch planned on the end of February, 2017 will be the recovered and refurbished one from April 8, 2016.
Landmark achievements of SpaceX include:
- The first privately funded, liquid-fueled rocket (Falcon 1) to reach orbit (28 September 2008)
- The first privately funded company to successfully launch (by Falcon 9), orbit and recover a spacecraft (Dragon) (9 December 2010)
- The first private company to send a spacecraft (Dragon) to the International Space Station (25 May 2012)
- The first private company to send a satellite into geosynchronous orbit (SES-8, 3 December 2013)
- The first landing of a first stage orbital capable rocket (Falcon 9, Flight 20) (22 December 2015 1:39 UTC)
- The first water landing of a first stage orbital capable rocket (Falcon 9) (8 April 2016 20:53 UTC)
- SpaceX Launches 1st Private Rocket from Historic NASA Pad — Then Sticks a Landing February 19, 2017
On December 22, 2015, at approximately 1:29 UTC, SpaceX launched an upgraded Falcon 9 rocket from Cape Canaveral Air Force Station into Low Earth orbit, on a mission designated Flight 20. After completing its primary burn, the first stage of the multistage rocket detached from the second stage as usual. The first stage then fired three of its engines to send it back to Cape Canaveral, where it achieved the world's first successful landing of a rocket that was used for an orbital launch. The landing occurred at around 1:39 UTC on December 22. Stage two successfully deployed eleven communication satellites for Orbcomm.
SpaceX is privately funded. It developed its first launch vehicle—Falcon 1—and three rocket engines—Merlin, Kestrel, and Draco—completely with private capital. SpaceX contracted with the US government for a portion of the development funding for the Falcon 9 launch vehicle, which uses a modified version of the Merlin rocket engine. SpaceX is developing the Falcon Heavy launch vehicle, the Raptor methane-fueled rocket engine, and a set of reusable launch vehicle technologies with private capital.
As of May 2012[update], SpaceX had operated on total funding of approximately $1 billion in its first ten years of operation. Of this, private equity provided about $200M, with Musk investing approximately $100M and other investors having put in about $100M (Founders Fund, Draper Fisher Jurvetson, ...). The remainder has come from progress payments on long-term launch contracts and development contracts. As of April 2012[update], NASA had put in about $400–500M of this amount, with most of that as progress payments on launch contracts. By May 2012, SpaceX had contracts for 40 launch missions, and each of those contracts provide down payments at contract signing, plus many are paying progress payments as launch vehicle components are built in advance of mission launch, driven in part by US accounting rules for recognizing long-term revenue.
In August 2012, SpaceX signed a large development contract with NASA to design and develop a crew-carrying space capsule for the "next generation of U.S. human spaceflight capabilities", in order to re-enable the launch of astronauts from U.S. soil by 2017. Two other companies, Boeing and Sierra Nevada Corporation, received similar development contracts. Advances made by all three companies under Space Act Agreements through NASA's Commercial Crew Integrated Capability (CCiCap) initiative are intended to ultimately lead to the availability of commercial human spaceflight services for both government and commercial customers. As part of this agreement, SpaceX was awarded a contract worth up to $440 million for contract deliverables between 2012 and May 2014.
At year-end 2012, SpaceX had over 40 launches on its manifest representing about $4 billion in contract revenue—with many of those contracts already making progress payments to SpaceX—with both commercial and government (NASA/DOD) customers. As of December 2013[update], SpaceX has a total of 50 future launches under contract, two-thirds of them are for commercial customers. In late 2013, space industry media began to comment on the phenomenon that SpaceX prices are undercutting the major competitors in the commercial commsat launch market—the Ariane 5 and Proton-M—at which time SpaceX had at least 10 further geostationary orbit flights on its books.
In January 2015, SpaceX raised $1 billion in funding from Google and Fidelity, in exchange for 8.333% of the company, establishing the company valuation at approximately $12 billion. Google and Fidelity joined the then current investorship group of Draper Fisher Jurvetson, Founders Fund, Valor Equity Partners and Capricorn. Although the investment was thought to be related to SpaceX's launch of a satellite construction business and global satellite internet service effort, Gwynne Shotwell said in March 2015 that the investment was not specifically for the global internet project. Google had been searching for a satellite internet partner since the split with O3b Networks and OneWeb.
Musk has stated that one of his goals is to improve the cost and reliability of access to space, ultimately by a factor of ten. The company plans in 2004 called for "development of a heavy lift product and even a super-heavy, if there is customer demand" with each size increase resulting in a significant decrease in cost per pound to orbit. CEO Elon Musk said: "I believe $500 per pound ($1,100/kg) or less is very achievable."
SpaceX has on occasion developed new engineering development technologies to enable it to pursue its various goals. In 2015, public sources revealed that SpaceX is developing their own computational fluid dynamics (CFD) software to improve the simulation capability of evaluating rocket engine combustion design. By October 2016, following a number of successful landings of the used first stages, SpaceX indicated they were offering their customers a ten percent price discount if they choose to fly their payload on a reused Falcon 9 first stage.
In June 2015 the company asked the federal government for permission to begin testing for a project that aims to build a constellation of 4000 satellites capable of beaming the Internet to the entire globe, including remote regions which currently do not have internet access.
Musk stated in a 2011 interview that he hopes to send humans to Mars' surface within 10–20 years. In June 2013, Musk used the descriptor "Mars Colonial Transporter" (only later changed to "Interplanetary Transport System"; see below) to refer to the privately funded development project to design and build a spaceflight system of rocket engines, launch vehicles and space capsules to transport humans to Mars and return to Earth. In March 2014, COO Gwynne Shotwell said that once the Falcon Heavy and Dragon v2 crew version are flying, the focus for the company engineering team will be on developing the technology to support the transport infrastructure necessary for Mars missions.
Musk's long term vision for the company is the development of technology and resources suitable for human colonization on Mars. He has expressed his interest in someday traveling to the planet, stating "I'd like to die on Mars, just not on impact." To achieve it, Musk plans to establish cargo flights to Mars, getting the first delivery there by 2018. A rocket every two years or so after that could provide a base for the people arriving in 2025 after a launch in 2024. According to Steve Jurvetson, Musk believes that by 2035 at the latest, there will be thousands of rockets flying a million people to Mars, in order to enable a self-sustaining human colony.
In September 2016, Elon Musk announced that SpaceX would build the launch vehicle and spacecraft portion of the Interplanetary Transport System, a long-term project to enable settlement of Mars, but only with significant demand arising from other people and institutions.
SpaceX has been improving the autonomous landing and recovery of the first stage of the Falcon 9 launch vehicle, with increasing success. As a result of Elon Musk's goal of crafting more cost-effective launch vehicles, SpaceX conceived a method to reuse the first stage of their primary rocket, the Falcon 9, by attempting propulsive vertical landings on solid surfaces. Once the company determined that soft landings were feasible by touching down over the Atlantic and Pacific Ocean, they began landing attempts on a solid platform. SpaceX leased and modified several barges to sit out at sea as a target for the returning first stage, converting them to autonomous spaceport drone ships (ASDS).
On January 10, 2015 CRS-5, or Commercial Resupply Service 5, launched with the rocket stage set to be the first to land on a solid surface and be recovered intact. The craft made it to the ASDS, though it came in too fast and at an angle, exploding on the surface of the ship and scattering debris on its surface and in the ocean. The drone ship experienced some structural damages, but nothing irreparable. The cause of the failed landing was determined to be a failure of the grid fins used on the craft during the descent to stabilize it, which ran out of hydraulic fluid and ceased to function properly.
On their next attempt, during the CRS-6 mission, SpaceX was once again able to hit their target, however two issues occurred during the landing. The first was that the craft came in with a higher than expected lateral velocity, though the craft still made contact with the ASDS. Since the spacecraft was drifting sideways, the bipropellant for the rocket’s attitude control should have kept it from tipping, however a valve became stuck and kept the craft from reacting to the issue quickly. The rocket once again tipped over and was mostly destroyed. In both cases, debris was recovered and examined by SpaceX. Though both landings of the rocket stages resulted in failures, the primary mission was successful- the Dragon capsules for each mission made it to the International Space Station safely and later splashed down in the Pacific Ocean.
On the next attempt, December 21, 2015, SpaceX successfully landed the first stage for the first time for an orbital launch, landing the first stage booster from their second mission for Orbcomm at Landing Zone 1 at Kennedy Space Center (a Return To Launch Site landing).
In January 2016 another ASDS landing attempt was made during the launch of the Jason-3 satellite from Vandenberg Air Force Base, California. The stage successfully touched down on the drone ship, landing 1.3 meters from the center of the painted target at a suitable speed. However, a landing leg collet failed to lock, and the stage again tipped over and was destroyed. The leg collet failure was attributed to frozen condensation from fog at Vandenberg prior to launch.
On April 8, 2016, the first stage booster successfully landed on the ASDS Of Course I Still Love You, marking the first time SpaceX successfully landed and recovered an orbitally launched rocket at sea.
On May 6, 2016, SpaceX landed the first stage of the Falcon 9 on Of Course I Still Love You during the JCSat-14 mission, its second time successfully landing on a drone ship at sea. This was the first time a booster on a geostationary transfer mission landed successfully. This feat was repeated on May 27 during the Thaicom-8 mission, and again on August 14 during the JCSAT-16 mission.
Global broadband internet service
In January 2015, SpaceX CEO Elon Musk announced the development of a new satellite constellation to provide global broadband internet service. The internet service will use a constellation of 4,000 cross-linked communications satellites in 1100 km orbits. Owned and operated by SpaceX, the goal of the business is to increase profitability and cashflow, to allow SpaceX to build its Mars colony. Development began in 2015, initial prototype test-flight satellites are expected to be flown in 2017, and initial operation of the constellation could begin as early as 2020.
Issues in flight
On March 1, 2013, a Dragon spacecraft in orbit developed issues with its thrusters. Due to blocked fuel valves, the craft was unable to properly control itself. SpaceX engineers were able to remotely clear the blockages. Because of this issue, the craft arrived at and docked with the International Space Station one day later than expected. Since spacecraft like the Dragon were classified as munitions and considered weapons under arms regulations until November 2014, SpaceX Mission controllers were unable to release more information to the public.
On June 28, 2015, CRS-7 launched a Falcon 9 topped with an unmanned Dragon capsule destined to bring supplies to the International Space Station. All statistics were nominal until 2 minutes and 19 seconds into the flight when a cloud of vapor formed outside the craft, seen by the tracking camera. A few seconds after this cloud formed, there was a loss of helium tank pressure, after which the tanks exploded and caused a complete failure of the mission. The software was not programmed to deploy the parachute for the Dragon capsule after a launch mishap, therefore the Dragon broke up on impact.
The problem was discovered to be a failed 2-foot-long steel strut purchased from a supplier on a helium pressure vessel that broke due to the force of acceleration. This caused a breach and allowed helium to escape causing the demise of the spacecraft.
SpaceX plans to move past the issue while also learning from it by inspecting each of the struts to ensure they have been manufactured correctly and will function properly. The software issue was also fixed in addition to an analysis of the entire program in order to ensure proper abort mechanisms are in place for future rockets and their payload.
SpaceX President Gwynne Shotwell stated that in terms of the differences between the six previous successful Falcon 9 Commercial Resupply Launches, “there’s nothing that stands out as being different for any particular flight.” Though the craft was set to bring a resupply of food and water to the ISS, the crew members had enough supplies to last another 4 months before another resupply, which would end up being the Russian Progress 60P vehicle. Student science experiments as well as a docking adapter and other miscellaneous cargo were lost due to CRS-7 failure as well.
On September 1, 2016, a Falcon 9 Full Thrust launch vehicle exploded during a propellant fill operation for a standard pre-launch static fire test at Cape Canaveral Launch Complex 40. There were no reported injuries, as the area was cleared for the test. However the payload, the Spacecom Amos-6 communications satellite, was destroyed; it is valued at $200 million. Spacecom claims its contract, since the launch failed, allows it to choose to receive $50 million or a future flight at no cost. Musk described the event as the "most difficult and complex failure" ever in SpaceX's 14-year history; SpaceX reviewed nearly 3,000 channels of telemetry and video data covering a period of 35–55 milliseconds for the postmortem. In late September, SpaceX stated that interim results suggested that a major breach of the cryogenic helium system of the second stage rocket had occurred. In November 2016, Musk reported the explosion was caused by the liquid oxygen used as propellant turning so cold that it became a solid, and it may have breached the helium pressure vessels which are immersed in the liquid oxygen. The vessels are overwrapped with a carbon composite material. The solid oxygen, under pressure, could have ignited with the carbon material causing the explosion.
SpaceX concluded its investigation, the company reported on 2 January 2017. SpaceX successfully got back to flying on in early 2017.
Headquarters and rocket manufacturing plant
SpaceX Headquarters is located in the Los Angeles suburb of Hawthorne at 1 Rocket Road, Hawthorne, California. The large three-story facility, originally built by Northrop Corporation to build Boeing 747 fuselages, houses SpaceX's office space, mission control, and vehicle factory. The area has one of the largest concentrations of aerospace headquarters, facilities, and/or subsidiaries in the U.S., including Boeing/McDonnell Douglas main satellite building campuses, Raytheon, NASA's Jet Propulsion Laboratory, Lockheed Martin, BAE Systems, Northrop Grumman, and AECOM, etc., with a large pool of aerospace engineers and recent college engineering graduates.
SpaceX utilizes a high degree of vertical integration in the production of its rockets and rocket engines. SpaceX builds its rocket engines, rocket stages, spacecraft, principal avionics and all software in-house in their Hawthorne facility, which is unusual for the aerospace industry. Nevertheless, SpaceX still has over 3000 suppliers with some 1100 of those delivering to SpaceX nearly weekly.
Satellite development facility
In January 2015, SpaceX announced it would be entering the satellite production business and global satellite internet business. The satellite factory would be located in Seattle, Washington. The office will initially have approximately 60 engineers, with the potential to grow to 1,000 over several years. In July 2016, SpaceX acquired an additional 740 square meters (8,000 sq ft) creative space in Irvine, CA (Orange County) to focus on satellite communications.
SpaceX has regional offices in Houston, Texas; Chantilly, Virginia; and Washington, D.C. and opened an office in the Seattle region in 2014 from which it is heavily recruiting engineers and software developers.
Test and post-flight disassembly facilities
SpaceX has two rocket test facilities: the SpaceX Rocket Development and Test Facility in McGregor, Texas and a leased VTVL (vertical takeoff, vertical landing) test facility at Spaceport America in southern New Mexico. All SpaceX rocket engines are tested on rocket test stands, and low-altitude VTVL flight testing of the Falcon 9 Grasshopper v1.0 and F9R Dev1 test vehicles were done at McGregor. High-altitude, high-velocity flight testing of the follow-on F9R Dev2 test vehicle are planned to begin at Spaceport America in 2015. In addition, the McGregor facility is used for post-flight disassembly and defueling of the Dragon spacecraft.
The company purchased the McGregor, Texas, testing facilities of defunct Beal Aerospace, where it refitted the largest test stand at the facilities for Falcon 9 engine testing. SpaceX has made a number of improvements to the facility since purchase, and has also extended the size of the facility by purchasing several pieces of adjacent farmland. In 2011, the company announced plans to upgrade the facility for launch testing a VTVL rocket, and then constructed a half-acre concrete launch facility in 2012 to support the Grasshopper test flight program.
SpaceX builds all of its rocket engines and thrusters at its main facility in Hawthorne, California where the largest SpaceX campus is located, and where most of the high-technology components are engineered. A test facility in McGregor, Texas is one of the secondary locations where the company tests each new engine from the assembly line, as well as those being developed for future missions to orbit and beyond" before each one can be used on a flight mission. As of October 2012[update], the McGregor facility has seven test stands that are operated "18 hours a day, six days a week" and is building more test stands because production is ramping up and the company has a large manifest in the next several years.
The Dragon spacecraft, following use on a space mission, splashdown and recovery, are shipped to McGregor for de-fueling, cleanup, and refurbishment for potential reuse in future flight missions.
In May 2013, SpaceX announced that the high-altitude, high-velocity flight test program of the F9R Development vehicles—the second generation of the SpaceX experimental VTVL suborbital technology-demonstrator—would be conducted at Spaceport America near Las Cruces, New Mexico. SpaceX signed a three-year lease with the spaceport and constructed a 30 by 30 metres (98 ft × 98 ft) pad there, 7 kilometres (4.3 mi) southwest of the spaceport's main campus. However this facility was never used, as SpaceX quickly transitioned to conducting booster controlled-descent and landing tests on operational missions.
SpaceX currently uses three orbital launch sites—Cape Canaveral Air Force Station Space Launch Complex 40, Kennedy Space Center Launch Complex 39A, and Vandenberg Air Force Base, Space Launch Complex 4—and have announced plans for one more. SpaceX has indicated that they see a niche for each of the four orbital facilities and that they have sufficient launch business to fill each pad. In addition, SpaceX utilizes two facilities for suborbital launch operations and flight tests, the SpaceX Rocket Development and Test Facility in McGregor, Texas and a high-altitude flight test facility at Spaceport America in New Mexico.
Cape Canaveral space launch complex 40 (SLC-40) was used to launch Falcon 9 into low-earth and geostationary orbits, while Vandenberg AFB SLC-4E was used for payloads to polar orbits. The Vandenberg site has also been intended for Falcon Heavy launches. As part of SpaceX's booster reusability program, the former Launch Complex 13 at Cape Canaveral, now renamed Landing Zone 1, has been designated for use for Falcon 9 first-stage booster landings.
All Falcon 1 launches took place at the Ronald Reagan Ballistic Missile Defense Test Site, Omelek Island, Kwajalein Atoll, Marshall Islands (northern Pacific Ocean). SpaceX abandoned Omelek when the Falcon 1 was retired.
New commercial-only launch site
After considering potential locations including Alaska, California, Florida, Texas, Virginia, Georgia, and Puerto Rico, on August 4, 2014 Texas Governor Rick Perry and SpaceX CEO Elon Musk announced SpaceX selected a location near Brownsville, Texas for a new commercial-only launch facility. The FAA released the draft Environmental Impact Statement for the proposed Texas facility in April 2013, and "found that 'no impacts would occur' that would force the Federal Aviation Administration to deny SpaceX a permit for rocket operations," and issued the permit in July 2014. SpaceX started construction on the new launch facility in 2014 with production ramping up in the latter half of 2015, with the first launches from the facility no earlier than 2016. Real estate packages at the location have been named by SpaceX with names based on the theme "Mars Crossing".
Crewed-mission leased launch site
||This section needs to be updated. (February 2017)|
As of December 2013[update], SpaceX has entered negotiations to lease Launch Complex 39A at the Kennedy Space Center in Florida, following NASA's decision to lease the unused complex out as part of a bid to reduce annual operation and maintenance costs. The SpaceX bid is for exclusive use of the launch complex to support their future crewed missions. A competing bid for commercial use of the launch complex was submitted by Jeff Bezos' Blue Origin, who was bidding for a shared non-exclusive use of the complex such that the launchpad can interface with multiple vehicles, and costs can be shared over the long term. One potential shared user in the Blue Origin notional plan was United Launch Alliance.
Commercial cargo contracts
On August 18, 2006, NASA announced that SpaceX had won a NASA Commercial Orbital Transportation Services (COTS) contract to demonstrate cargo delivery to the International Space Station (ISS) with a possible option for crew transport. This contract, designed by NASA to provide "seed money" for developing new boosters, paid SpaceX $278 million to develop the Falcon 9 launch vehicle, with incentive payments paid at milestones culminating in three demonstration launches. In December 2008, SpaceX and Orbital Sciences Corporation each won a Commercial Resupply Services (CRS) contract. That of SpaceX is for at least 12 missions for $1.6 billion to carry supplies and cargo to and from the ISS. On 9 December 2010, the launch of the COTS Demo Flight 1 mission, SpaceX became the first privately funded company to successfully launch, orbit and recover a spacecraft.
The original NASA contract called for the COTS Demo Flight 1 to occur the second quarter of 2008; this flight was delayed several times, occurring at 15:43 UTC on 8 December 2010. Dragon was successfully deployed into orbit, circling the Earth twice, and then made a controlled reentry burn that put it on target for a splashdown in the Pacific Ocean off the coast of Mexico. With Dragon's safe recovery, SpaceX become the first private company to launch, orbit, and recover a spacecraft; prior to this mission, only government agencies had been able to recover orbital spacecraft.
According to the original schedule, in COTS Demo Flight 2 the Dragon spacecraft would make its second flight and would rendezvous with the ISS but not be berthed. The third flight would see Dragon being berthed to the ISS. However, after the success of the first mission, NASA conditionally agreed on 15 July 2011 that the two flights would be combined, and the next Dragon mission was to have Dragon being berthed with the ISS. On 9 December 2011, NASA formally approved the merger of the COTS 2 and 3 missions into the COTS 2 flight, but yet again delayed the tentative launch date by another month to 7 February 2012. However, on 16 January 2012, SpaceX announced it needed more time for engineering tests, and postponed the launch date again, with no replacement date initially announced. On 19 May at approximately 4:55AM EDT the launch for the COTS 2+ mission was automatically aborted when the pressure in one of the engine chambers was higher than expected. The COTS Demo Flight 2 launch was postponed to 22 May 2012, at which point it succeeded in putting the Dragon spacecraft into orbit. Several days later, the Dragon capsule successfully berthed with the International Space Station, marking the first time that a private spacecraft had accomplished this feat.
Commercial crew contracts
SpaceX is planning a crewed Dragon/Falcon 9 flight in future years when it expects to have a fully certified, human-rated launch escape system incorporated into the spacecraft. NASA's Commercial Crew Development (CCDev) program intends to develop commercially operated manned spacecraft that are capable of delivering crew to the ISS. SpaceX did not participate during the first round, however during the second round of the program NASA awarded SpaceX with a contract worth $75 million to further develop their launch escape system, test a crew accommodations mock-up and to further progress the Falcon 9/Dragon crew transportation design. SpaceX later submitted a proposal for the third round of the CCDev program which became Commercial Crew Integrated Capability (CCiCap).
On August 3, 2012, NASA announced new agreements with SpaceX and two other companies to design and develop the next generation of U.S. human spaceflight capabilities, enabling a launch of astronauts from U.S. soil in the next five years. Advances made by these companies under newly signed Space Act Agreements through the agency's CCiCap initiative are intended to ultimately lead to the availability of commercial human spaceflight services for government and commercial customers. As part of this agreement, SpaceX was awarded $440 million, to continue development and testing of its Dragon V2 spacecraft.
On September 16, 2014, NASA chose SpaceX and Boeing as the two companies that will be funded to develop systems to transport U.S. crews to and from the space station. SpaceX won $2.6B to complete and certify Dragon V2 by 2017. (Boeing won $4.2B to complete and certify their CST-100.) The contracts include at least one crewed flight test with at least one NASA astronaut aboard. Once Crew Dragon achieves NASA certification, the contract requires SpaceX to conduct at least two, and as many as six, crewed missions to the space station.
"Red Dragon" Mars mission concept
In addition to SpaceX's privately funded plans for an eventual Mars mission, NASA Ames Research Center had developed a concept called Red Dragon: a low-cost Mars mission that would use Falcon Heavy as the launch vehicle and trans-Martian injection vehicle, and the Dragon capsule to enter the Martian atmosphere. The concept was originally envisioned for launch in 2018 as a NASA Discovery mission, then alternatively for 2022, but as of September 2015[update] it has not been yet formally submitted for funding within NASA. The objectives of the mission would be return the samples from Mars to Earth at a fraction of the cost of the NASA own return-sample mission now projected at 6 billion dollars. On 27 April 2016, SpaceX announced its plan to launch a modified Dragon lander to Mars by 2018. This project is part of a public-private partnership contract between NASA and SpaceX.
On May 2, 2005, SpaceX announced that it had been awarded an Indefinite Delivery/Indefinite Quantity (IDIQ) contract for Responsive Small Spacelift (RSS) launch services by the United States Air Force, which could allow the Air Force to purchase up to $100 million worth of launches from the company. On 22 April 2008, NASA announced that it had awarded an IDIQ Launch Services contract to SpaceX for Falcon 1 and Falcon 9 launches. The contract will be worth up to $1 billion, depending on the number of missions awarded. The contract covers launch services ordered by 30 June 2010, for launches through December 2012. Musk stated in the same 2008 announcement that SpaceX has sold 14 contracts for flights on the various Falcon vehicles.
In December 2012, SpaceX announced its first two launch contracts with the United States Department of Defense. "The United States Air Force Space and Missile Systems Center awarded SpaceX two Evolved Expendable Launch Vehicle (EELV)-class missions:" Deep Space Climate Observatory (DSCOVR) and Space Test Program 2 (STP-2), to be launched in 2014 and 2015, respectively. DSCOVR was launched on a Falcon 9 launch vehicle while STP-2 will be launched on a Falcon Heavy.
SpaceX announced on March 15, 2010, that it would launch SES-8, a medium-sized communications satellite for SES, on a Falcon 9 vehicle, and it was successfully launched on 3 December 2013. SES was SpaceX's first contract for a geostationary communications satellite launch. In June 2010, SpaceX was awarded the largest-ever commercial space launch contract, worth $492 million, to launch Iridium satellites using Falcon 9 rockets.
On May 26, 2015, the United States Air Force announced that the Falcon 9 was certified for launching "national security space missions," which allows SpaceX to contract launch services to the Air Force for any payloads classified as national security. The first anticipated contract available to SpaceX will be in June 2015, with the GPS III satellite built by Lockheed Martin. According to Fox News, United Launch Alliance is currently the only provider other than SpaceX equipped and certified to launch national security payloads. In a statement, United Launch Alliance responded to the newly certified company “We welcome today’s announcement and look forward to competing with SpaceX and other new entrants," and followed by writing "The fact is, we could not be more passionate and proud of our work, our people and our record of success."
On September 14, 2015, SpaceX announced in a press release two new orders:
- Launch of a communications satellite for HISPASAT on a Falcon 9
- Launch of Saudi Arabian Arabsat 6A communications satellite on a Falcon Heavy
In the press release, SpaceX also stated they currently have over 60 missions on manifest representing over $7B under contract.
On April 27, 2016, the Pentagon announced that SpaceX has been awarded an $82.7 million contract from the U.S. Air Force to launch a next-generation GPS satellite aboard its Falcon 9 rocket in May 2018.
Launch market competition and pricing pressure
SpaceX's low launch prices (less than $2,500 per pound ($5,500 per kg) to orbit for Falcon 9 v1.1 and $1,000 per pound ($2,200 per kg) for Falcon Heavy), especially for communication satellites flying to geostationary (GTO) orbit, have resulted in market pressure on its competitors to lower their own prices. The communications satellites launch market had been dominated in the years preceding 2013 by Europe's Arianespace (flying Ariane 5) and International Launch Services (ILS) (flying Russia's Proton vehicle). By late 2013, with a published price of US$56.5 million per launch to low Earth orbit, "Falcon 9 rockets [were] already the cheapest in the industry. Reusable Falcon 9s could drop the price by an order of magnitude, sparking more space-based enterprise, which in turn would drop the cost of access to space still further through economies of scale."
SpaceX capabilities and prices are affecting the global market considerably. Arianespace requested in early 2014 that European governments provide additional subsidies to face the competition from SpaceX. European satellite operators are pushing the ESA to reduce Ariane 5 and the future Ariane 6 rocket launch prices as a result of competition from SpaceX. According to one Arianespace managing director in 2015, it was clear that "a very significant challenge [was] coming from SpaceX ... Therefore things have to change ... and the whole European industry is being restructured, consolidated, rationalised and streamlined."
By November 2014, space media reported that SpaceX had "already begun to take market share" from Arianespace. In 2014, Falcon 9 GTO mission pricing was approximately US$15 million less than a launch on a Chinese Long March 3B. However, the Chinese Government and the Great Wall Industry company—which markets the Long March for commsat missions—made a policy decision to maintain commsat launch prices at approximately US$70 million. By 2014, SpaceX capabilities and lower launch prices had also begun to affect the market for launch of US military payloads, where for nearly a decade the large US launch provider United Launch Alliance (ULA) had faced no competition for the military launches. In October 2014 ULA announced a major restructuring of processes and workforce in order to decrease launch costs by half, in part as a result of competition from SpaceX. In May 2015, ULA stated that it would go out of business unless it won commercial and civil satellite launch orders to offset an expected slump in U.S. military and spy launches. Jean Botti, Director of innovation for Airbus (which makes the Ariane 5) warned that "those who don't take Elon Musk seriously will have a lot to worry about."
When the final numbers were in for 2014, SpaceX had won nine contracts out of 20 that were competed worldwide in 2014 at commercial launch service providers. 2014 was the first year in some time that no commercial launches were booked on the Russian (Proton) and Russian-Ukrainian (Zenit) launch service providers. SpaceX launched their first communication satellite to geosynchronous orbit only in late 2013.
Commercial and government launch contracts summary
As of January 2013[update], SpaceX has a purely commercial launch manifest of "23 missions scheduled over the next 4 years, exclusive of US government flights, Dragonlab flights and the anticipated demo flight for Falcon Heavy"—of a total of 40 flights scheduled through 2017."
On December 3, 2013, SpaceX launched its first satellite into geostationary orbit, SES-8, entering the major commercial launch market. SpaceX prices undercut its major competitors, the Ariane 5 and Proton, in this market, and SpaceX has at least 10 further geostationary orbit flights on its books. Moreover, SpaceX prices for Falcon 9 and Falcon Heavy are much lower than the projected prices for the new Ariane 5 ME upgrade and its Ariane 6 successor, projected to be available in 2018 and 2021, respectively. As of December 2013[update], SpaceX has a total of 50 future launches under contract; two-thirds of them are for commercial customers.
SpaceX is, however, making a concerted effort to be able to make competitive bids for US military launches of EELV-class payloads. The government certified the Falcon 9 v1.1 for national security launches in May 2015, and the earliest EELV launches that could be contracted with SpaceX as of March 2014[update] would be in late 2016. On April 27, 2016, the U.S. Air Force awarded the first such national security launch, an $82.7 million contract to SpaceX to launch a GPS satellite in May 2018; this estimated cost was approximately 40% less than the estimated cost for similar previous missions.
SpaceX is currently manufacturing two main space launch vehicles: the large Evolved Expendable Launch Vehicle (EELV)-class Falcon 9, which flew successfully into orbit on its maiden launch on 4 June 2010 and the super-heavy class Falcon Heavy, which is scheduled to make its first flight in 2017. SpaceX also manufactures the Dragon, a pressurized orbital spacecraft that is launched on top of a Falcon 9 booster to carry cargo to low-Earth orbit, and the follow-on Dragon V2 spacecraft, currently in the process of being human-rated through a variety of design reviews and flight tests that began in 2014.
Falcon launch vehicles
SpaceX has flown, or is developing, several orbital launch vehicles: the Falcon 1, Falcon 9, and Falcon Heavy. As of July 2016, the Falcon 9 Full Thrust is in active use and the Falcon Heavy is under development.
Falcon 1 was a small rocket capable of placing several hundred kilograms into low earth orbit. It functioned as an early test-bed for developing concepts and components for the larger Falcon 9. Falcon 1 made five flights in 2006–2009. On 28 September 2008, the Falcon 1 succeeded in reaching orbit on its fourth attempt, becoming the first privately funded, liquid-fueled rocket to do so. The Falcon 1 carried its first successful commercial payload, RazakSAT, into orbit on 13 July 2009, on its fifth launch. SpaceX has now retired the Falcon 1 and transferred Falcon 1 class payloads to be secondary payloads on the Falcon 9, which proved to be more efficient. Falcon 1e was a proposed upgrade, but it was scrapped prior to its maiden launch. Other proposed, but canceled launch vehicles include Falcon 5 and Falcon 9 Air.
Falcon 9 is an EELV-class medium-lift vehicle capable of delivering up to 22,800 kilograms (50,265 lb) to orbit, and is intended to compete with the Delta IV and the Atlas V rockets, as well as other launch providers around the world. It has nine Merlin engines in its first stage. The Falcon 9 v1.0 rocket successfully reached orbit on its first attempt on 4 June 2010. The second flight for the Falcon 9 vehicle was the COTS Demo Flight 1 on 8 December 2010, the first launch under the NASA Commercial Orbital Transportation Services (COTS) contract, and was similarly successful. Its third flight, COTS Demo Flight 2, launched on 22 May 2012, and was the first commercial spacecraft to reach and dock with the International Space Station. Vehicle was upgraded to Falcon 9 v1.1 in 2013 and again in 2015 to the current Falcon 9 Full Thrust version. As of September 2016, Falcon 9 vehicles have flown 26 successful launches and two failures.
Falcon Heavy began development as a heavy-lift configuration using a cluster of three Falcon 9 first stage cores with a total 27 Merlin 1D engines and propellant crossfeed in 2011. SpaceX is aiming for the first demonstration flight of the Falcon Heavy in December 2016.
In 2005, SpaceX announced plans to pursue a human-rated commercial space program through the end of the decade. The Dragon spacecraft is intended to carry up to seven astronauts into orbit and beyond. It is a conventional blunt-cone ballistic capsule, which is capable of carrying 7 people or a mixture of personnel and cargo to and from low Earth orbit. It is launched atop a Falcon 9 launch vehicle. The spacecraft's nosecone is jettisoned shortly after launch in the cargo version, but is expected to be kept during the full flight of the crewed version.
In 2006, NASA announced that the company was one of two selected to provide crew and cargo resupply demonstration contracts to the ISS under the COTS program. SpaceX demonstrated cargo resupply and eventually crew transportation services using the Dragon. NASA's original plan called for COTS demonstration flights between 2008 and 2010. SpaceX was not able to meet that schedule, but eventually began test-flights in 2010.
The first flight of a Dragon structural test article took place 4 June 2010, from Launch Complex 40 at Cape Canaveral Air Force Station during the maiden flight of the Falcon 9 launch vehicle; the mock-up Dragon lacked avionics, heat shield, and other key elements normally required of a fully operational spacecraft but contained all the necessary characteristics to validate the flight performance of the launch vehicle. An operational Dragon spacecraft was launched on 8 December 2010 aboard COTS Demo Flight 1, the Falcon 9's second flight, and safely returned to Earth after two orbits, completing all its mission objectives. In 2012, Dragon began conducting regular resupply services to the ISS with a contract for 12 flights.
In 2009 and 2010, Musk suggested on several occasions that plans for a human-rated variant of Dragon were proceeding and had a 2- to 3-year time line to completion. On 18 April 2011, NASA issued a $75 million contract, as part of its second-round commercial crew development (CCDev) program, for SpaceX to develop an integrated launch escape system for Dragon in preparation for human-rating it as a crew transport vehicle to the ISS. This Space Act Agreement runs from April 2011 until May 2012, when the next round of contracts are to be awarded. NASA approved the technical plans for the system in October 2011, and SpaceX began building prototype hardware.
SpaceX plans to launch its first crew-occupied Dragon spacecraft in a test flight by 2017. Elon Musk has stated the personal goal of eventually enabling human exploration and settlement of Mars.
Other concepts under development
Several modifications or additions to the Falcon rocket family are currently being developed by SpaceX. These include three vehicles that further technology development objectives toward reusable launch systems: the Grasshopper test vehicle and the commercial launch vehicles Reusable Falcon 9 and Reusable Falcon Heavy.
A major goal of SpaceX has been to develop a rapidly reusable launch system. As of March 2013[update], the publicly announced aspects of this technology development effort include an active test campaign of the low-altitude, low-speed Grasshopper vertical takeoff, vertical landing (VTVL) technology demonstrator rocket, and a high-altitude, high-speed Falcon 9 post-mission booster return test campaign where—beginning in mid-2013, with the sixth overall flight of Falcon 9—every first stage will be instrumented and equipped as a controlled descent test vehicle to accomplish propulsive-return over-water tests. SpaceX COO Gwynne Shotwell said at the Singapore Satellite Industry Forum in summer 2013 "If we get this [reusable technology] right, and we’re trying very hard to get this right, we’re looking at launches to be in the US$5 to 7 million range, which would really change things dramatically."
SpaceX is developing a super-heavy lift launch vehicle—the ITS launch vehicle—a fully reusable booster stage and integrated second-stage/spacecraft—Interplanetary Spaceship and ITS tanker—to support flights to interplanetary space. Development of the Interplanetary Transport System and its super-heavy launch vehicle will be the major focus of SpaceX once Falcon Heavy and DragonCrew are flying regularly.
In June 2015, SpaceX announced that they would sponsor a Hyperloop competition, and would build a 1-mile-long (1.6 km) subscale test track near SpaceX's headquarters for the competitive events, which could be held as early as June 2016. The plan was later delayed to January 2017, as there were many requests from teams for more time designing and building their pods.
Since the founding of SpaceX in 2002, the company has developed three families of rocket engines — Merlin and Kestrel for launch vehicle propulsion, and the Draco RCS control thrusters. SpaceX is currently developing two further rocket engines: SuperDraco and Raptor.
Merlin is a family of rocket engines developed by SpaceX for use on its Falcon rocket family of launch vehicles. Merlin engines use LOX and RP-1 as propellants in a gas-generator power cycle. The Merlin engine was originally designed for sea recovery and reuse. The injector at the heart of Merlin is of the pintle type that was first used in the Apollo Program for the lunar module landing engine. Propellants are fed via a single shaft, dual impeller turbo-pump. Kestrel is a LOX/RP-1 pressure-fed rocket engine, and was used as the Falcon 1 rocket's second stage main engine. It was built around the same pintle architecture as SpaceX's Merlin engine but does not have a turbo-pump, and is fed only by tank pressure. Its nozzle was ablatively cooled in the chamber and throat and radiatively cooled, and was fabricated from a high strength niobium alloy.
Draco are hypergolic liquid-propellant rocket engines that utilize a mixture of monomethyl hydrazine fuel and nitrogen tetroxide oxidizer. Each Draco thruster generates 400 newtons (90 lbf) of thrust. They are used as reaction control system (RCS) thrusters on both the Dragon spacecraft and the Falcon 9 launch vehicle second-stage. SuperDraco are a much more powerful version of the Draco thrusters, which will be initially used as landing and launch escape system engines on the version 2 Dragon spacecraft, Dragon V2.
SpaceX has signaled on multiple occasions that it is interested in developing much larger engines than it has done to date. A conceptual plan for the Raptor project was first unveiled in a June 2009 AIAA presentation. In November 2012, Musk announced a new direction for propulsion side of the company: developing LOX/methane rocket engines for launch vehicle main and upper stages. The Raptor LOX/methane engine will use the more efficient staged combustion cycle, a departure from the open cycle gas generator cycle system and LOX/RP-1 propellants that the current Merlin 1 engine series uses." The rocket would be more powerful than previously released publicly, with over 1,000,000 lbf (4,400 kN) of thrust. Raptor engine component-level testing will begin in 2014. The Raptor engine will likely be the first in a family of methane-based engines SpaceX intends to build.
- Autonomous spaceport drone ship
- Colonization of Mars
- Human outpost
- List of Falcon 9 and Falcon Heavy launches
- Falcon 9 first-stage landing tests
- Manned mission to Mars
- Mars to Stay
- Interplanetary Transport System
- Orbital Sciences Corporation
- Private spaceflight
- Space exploration
- Terraforming of Mars
- Tourism on Moon
- United Launch Alliance
- Mars One
- California Business Search (C2414622 - Space Exploration Technologies Corp)
- SpaceX’s Redmond effort ‘very speculative’ November 7, 2015, accessed 2016-02-04
- Shotwell, Gwynne (3 February 2016). Gwynne Shotwell comments at Commercial Space Transportation Conference. Commercial Spaceflight. Event occurs at 2:43:15–3:10:05. Retrieved 4 February 2016.
- "Gwynne Shotwell: Executive Profile & Biography". Business Week. New York: Bloomberg. 2011-12-01. Archived from the original on 2011-12-01. Retrieved 2011-12-01.
- Hennigan, W.J. (2013-06-07). "How I Made It: SpaceX exec Gwynne Shotwell". Los Angeles Times. Retrieved 2013-06-10.
- SpaceX Tour – Texas Test Site, spacexchannel, 11 November 2010, retrieved 23 May 2012
- SpaceX NASA CRS-6 PressKit Site (PDF), 12 April 2015, retrieved 13 April 2015
- Chang, Kenneth (27 September 2016). "Elon Musk's Plan: Get Humans to Mars, and Beyond". New York Times. Retrieved 27 September 2016.
- Clark, Stephen (2008-09-28). "Sweet Success at Last for Falcon 1 Rocket". Spaceflight Now. Retrieved 2015-01-01.
the first privately developed liquid-fueled rocket to successfully reach orbit.
- Chang, Kenneth (25 May 2012). "Space X Capsule Docks at Space Station". New York Times. Retrieved 25 May 2012.
- Matthew Weaver (2015-12-22). "'Welcome back, baby': Elon Musk celebrates SpaceX rocket launch – and landing". the Guardian.
- "SpaceX rocket successfully lands on ocean drone platform for first time". The Guardian. 2016-04-08.
- Grush, Loren (2016-05-06). "SpaceX successfully lands its Falcon 9 rocket on a floating drone ship again". The Verge. Vox Media. Retrieved 6 May 2016.
- Graham, William (13 April 2015). "SpaceX Falcon 9 launches CRS-6 Dragon en route to ISS". NASASpaceFlight. Retrieved 15 May 2015.
- Brost, Kirstin (April 19, 2011). "SpaceX Wins NASA Contract to Complete Development of Successor to the Space Shuttle". SpaceX.com. SpaceX. Retrieved 8 December 2015.
- "Liveblog: Elon Musk has revealed the Interplanetary Transport System". Ars Technica. 27 September 2016. Retrieved 2016-09-28.
- O'Kane, Sean (2016-09-27). "SpaceX unveils the Interplanetary Transport System, a spaceship and rocket to colonize Mars". The Verge. Retrieved 2016-09-28.
- "Miles O'Brien – Journalist".
- McKnight, John Carter (25 September 2001). "Elon Musk, Life to Mars Foundation". Mars Now, a weekly column. Space Frontier Foundation.
- Musk, Elon. "Risky Business". IEEE Spectrum. Retrieved April 27, 2014.
- Elon Musk on dodging a nervous breakdown (2013). YouTube. 16 March 2015.
- Andrew Chaikin. "Is SpaceX Changing the Rocket Equation?". Air & Space Smithsonian. Archived from the original on December 18, 2011. Retrieved May 30, 2015.
Significantly, the Merlin engines—like roughly 80 percent of the components for Falcon and Dragon, including even the flight computers—are made in-house. That’s something SpaceX didn’t originally set out to do, but was driven to by suppliers’ high prices. Mueller recalls asking a vendor for an estimate on a particular engine valve. 'They came back [requesting] like a year and a half in development and hundreds of thousands of dollars. Just way out of whack. And we’re like, ‘No, we need it by this summer, for much, much less money.’ They go, ‘Good luck with that,’ and kind of smirked and left.' Mueller’s people made the valve themselves, and by summer they had qualified it for use with cryogenic propellants. 'That vendor, they iced us for a couple of months,' Mueller says, 'and then they called us back: ‘Hey, we’re willing to do that valve. You guys want to talk about it?’ And we’re like, ‘No, we’re done.’ He goes, ‘What do you mean you’re done?’ ‘We qualified it. We’re done.’ And there was just silence at the end of the line. They were in shock.' That scenario has been repeated to the point where, Mueller says, 'we passionately avoid space vendors.
- Vance, Ashlee (May 14, 2015). "Elon Musk's space dream almost killed Tesla". Bloomberg Business. Retrieved June 7, 2015.
- "How Steve Jurvetson Saved Elon Musk – Business Insider". Business Insider. 14 September 2012. Retrieved 4 June 2015.
- "SpaceX". NASA Space Academy at Glenn. Retrieved 4 June 2015.
- Elon's SpaceX Tour – Engines. November 11, 2010 – via YouTube.
- SpaceX and Daring to Think Big – Steve Jurvetson. YouTube. 28 January 2015. Retrieved 4 June 2015.
- Vance, Ashlee (2015). Elon Musk: Tesla, SpaceX, and the Quest for a Fantastic Future. HarperCollins. pp. 227–228. ISBN 978-0062301239.
- Elon Musk speaks at the Hyperloop Pod Award Ceremony (2016.1.30). January 31, 2016 – via YouTube.
- Belfiore, Michael (September 1, 2009). "The Full Story Behind Elon Musk and Tom Mueller's SpaceX". Popular Mechanics. Retrieved June 7, 2015.
- "Surrey Satellite Technology Limited sells stake to SpaceX" (Press release). SpaceX. 2005-01-12.
- Wayne, Leslie (2006-02-05). "A Bold Plan to Go Where Men Have Gone Before". New York Times. Retrieved 2009-10-08.
- Shanklin, Emily (2008-08-04). "SpaceX receives $20 million investment from Founder's Fund" (Press release). SpaceX. Archived from the original on 2011-12-01. Retrieved 2008-08-10.
- Melby, Caleb (12 March 2012). "How Elon Musk Became A Billionaire Twice Over". forbes.com.
- "Elon Musk Anticipates Third IPO in Three Years With SpaceX". businessweek.com. 2012-02-10.
- "Elon Musk on Why SpaceX Has the Right Stuff to Win the Space Race". CNBC. 27 Apr 2012.
- "Privately-held SpaceX Worth Nearly $2.4 Billion or $20/Share, Double Its Pre-Mission Secondary Market Value Following Historic Success at the International Space Station". Privco. June 7, 2012.
- "SpaceX's worth skyrockets to $4.8B after successful mission". VentureBeat. 2012-06-10.
- "Former astronaut Bowersox joins SpaceX as Vice President of Astronaut Safety and Mission Assurance" (Press release). SpaceX. 2009-06-16. Retrieved 2009-07-27.
- Leone, Dan (2012-01-18). "SpaceX Safety VP Quit Late Last Year". Retrieved 2012-10-24.
- "Elon Musk on Mars: "It's a fixer-upper of a planet"". September 21, 2012.
- "Elon Musk Anticipates Third IPO in Three Years With SpaceX". Bloomberg. 2012-02-11.
- Schaefer, Steve (2013-06-06). "SpaceX IPO Cleared For Launch? Elon Musk Says Hold Your Horses". Forbes. Retrieved 2013-06-10.
- Peter B. de Selding (19 January 2015). "SpaceX To Build 4,000 Broadband Satellites in Seattle". SpaceNews.com.
- Chris Woodyard (9 June 2015). "Elon Musk: SpaceX goes public when Mars flights begin". USA TODAY.
- Ross Andersen (September 30, 2014). "Elon Musk puts his case for a multi-planet civilisat...". Aeon.
- Foust, Jeff (2005-11-14). "Big plans for SpaceX". The Space Review.
- "Diane Murphy joins SpaceX as Vice President of Marketing and Communications" (Press release). SpaceX. 2008-07-10.
- Hennigan, W. (2012-05-21). "SpaceX Again Ready to Blast off After Last-second Launch Abort". MSNBC. Retrieved 2012-05-22.
- "CRS-2 Press Kit" (PDF). NASA. 25 February 2013. Retrieved 25 February 2013.
- Messier, Doug (16 October 2013). "ISPCS Morning Session: Gwynne Shotwell of SpaceX". Retrieved 7 December 2013.
Gwynne Shotwell says that SpaceX is now up to about 3,800 employees, counting contractors working for the company. ... 600 more people to hire in next couple months. Finding good software people the hardest skills to fill.
- plarson (September 1, 2016). "Anomaly Updates".
- "SpaceX launches Falcon 9 from historic NASA pad". Retrieved 2017-02-21.
- "Tesla Time News 20". Now You Know. 2017-01-24.
- Mir Juned Hussain. "The Rise and Rise of SpaceX". Yaabot.
- "Twitter: SpaceX successfully deployed 11 satellites into Low Earth orbit and landed back on ground for the first time in history". 22 December 2015. Retrieved 22 December 2015.
- Engel, Max (2013-03-01). "Launch Market on Cusp of Change". Satellite Today. Retrieved 2013-02-15.
SpaceX is not the first private company to try to break through the commercial space launch market. The company, however, appears to be the real thing. Privately funded, it had a vehicle before it got money from NASA, and while NASA’s space station resupply funds are a tremendous boost, SpaceX would have existed without it.
- Boozer, R.D. (2014-03-10). "Rocket reusability: a driver of economic growth". The Space Review. 2014. Retrieved 2014-03-25.
- "SpaceX Prepared Testimony by Jeffrey Thornburg".
- Shotwell, Gwynne (June 4, 2014). Discussion with Gwynne Shotwell, President and COO, SpaceX. Atlantic Council. Event occurs at 22:35–26:20. Retrieved June 9, 2014.
This technology element [reusable launch vehicle technology] all this innovation is being done by SpaceX alone, no one is paying us to do it. The government is very interested in the data we are collecting on this test series. ... This is the kind of thing that entrepreneurial investment and new entrants/innovators can do for an industry: fund their own improvements, both in the quality of their programs and the quality of their hardware, and the speed and cadence of their operations.
- "SpaceX overview on secondmarket". SecondMarket.
- Watts, Jane (2012-04-27). "Elon Musk on Why SpaceX Has the Right Stuff to Win the Space Race". CNBC. Retrieved 2012-05-03.
- Hennigan, W.J. (3 August 2012). "Boeing, SpaceX big winners in NASA competition for new spacecraft". Los Angeles Times. Archived from the original on November 2, 2012. Retrieved 12 June 2015.
- "NASA Announces Next Steps In Effort To Launch Americans From U.S. Soil". Press Release. NASA. 2012-08-03. Retrieved 2012-08-05.
- "Company overview: Advancing the future". company website. SpaceX. Retrieved 2012-12-31.
- Dean, James (2013-12-04). "SpaceX makes its point with Falcon 9 launch". USA Today. Retrieved 2013-12-07.
- Stephen Clark (3 December 2013). "Falcon 9 rocket launches first commercial telecom payload". Spaceflight Now. Retrieved 4 December 2013.
- Stephen Clark (24 November 2013). "Sizing up America's place in the global launch industry". Spaceflight Now. Retrieved 25 November 2013.
- Reuters (20 January 2015). "SpaceX raises $1 billion in funding from Google, Fidelity". NewsDaily.
- Brian Berger (20 January 2015). "SpaceX Confirms Google Investment". SpaceNews.com.
- AFP (20 January 2015). "Google aboard as Musk's SpaceX gets $1 bn in funding". SpaceDaily.
- Koebler, Jason (2015-03-17). "SpaceX: No One Laughs Anymore When We Talk About Colonizing Mars". Motherboard. Retrieved 20 March 2015.
- Megan Geuss (19 January 2015). "Google might pour money into SpaceX, really wants satellite Internet". Ars Technica.
- "Space Exploration Technologies Corporation – press". spacex.com. SpaceX. Retrieved 15 Dec 2012.
- "Elon Musk — Senate Testimony, 5 May 2004". SpaceX. 2004-05-04. Retrieved 2008-08-10.
- Morgan, Timothy Prickett (27 March 2015). "Rockets Shake and Rattle, so SpaceX Rolls Homegrown CFD". The Platform. nextplatform.com. Retrieved 6 April 2015.
- de Selding, Peter B. (2016-10-05). "SpaceX's Shotwell on Falcon 9 inquiry, discounts for reused rockets and Silicon Valley's test-and-fail ethos". SpaceNews. Retrieved 2016-10-08.
- Kang, Cecilia; Davenport, Christian (9 June 2015). "SpaceX founder files with government to provide Internet service from space". The Washington Post. Retrieved 11 June 2015.
- Stone, Jeff (10 June 2015). "Elon Musk's SpaceX Plans To Launch 4,000 Satellites, Broadcasting Internet To Entire World". Retrieved 11 June 2015.
- "Elon Musk: I'll Put a Man on Mars in 10 Years". Market Watch. New York: The Wall Street Journal. 2011-04-22. Archived from the original on 2011-12-01. Retrieved 2011-12-01.
- Gwynne Shotwell (2014-03-21). Broadcast 2212: Special Edition, interview with Gwynne Shotwell (audio file). The Space Show. Event occurs at 41:20–42:. 2212. Archived from the original (mp3) on 2014-03-22. Retrieved 2014-03-22.
- Terdiman, Daniel (9 March 2013). "Elon Musk at SXSW: 'I'd like to die on Mars, just not on impact'". CNET. Retrieved 12 November 2015.
- Hern, Alex (June 2, 2016). "Elon Musk: 'Chances are we're all living in a simulation'" – via The Guardian.
- "Elon Musk Wants To Put Humans On Mars By 2025". Popular Science. Retrieved 2016-06-07.
- "Kapital". ETV – ERR. Retrieved 6 June 2015.
- "Elon Muskc plans to send 1 million people to Mars". Yahoo Tech. 28 September 2016. Retrieved 29 September 2016.
- Aron, Jacob (17 January 2015). "SpaceX doesn't mark the spot". New Scientist. Vol. 225 no. 3004. p. 1.
- Kramer, Miriam (12 January 2015). "SpaceX's Elon Musk Says Rocket Landing Test Ran Out of Hydraulic Fluid". Space.com.
- Bergin, Chris (19 April 2015). "Fine-tuning Falcon 9 Landing Focuses on Throttle Valve Response". NASASpaceflight.
- Musk, Elon (21 December 2015). "Background on tonight's launch". SpaceX.
- SpaceX (17 January 2016). "After further data review, stage landed softly but leg 3 didn't lockout. Was within 1.3 meters of droneship center" (Tweet) – via Twitter.
- Wall, Mike. "SpaceX Narrowly Misses Rocket Landing at Sea After Launching Satellite". space.com. Retrieved 18 January 2016.
- SpaceX (8 April 2016). CRS-8 | First Stage Landing on Droneship. YouTube.
- SpaceX (8 April 2016). CRS-8 Dragon Hosted Webcast – landing clip. YouTube. Event occurs at 26:58.
- SpaceX successfully lands its Falcon 9 rocket on a floating drone ship again The Verge, Retrieved 6 May 2016.
- Clark, Stephen (28 May 2016). "SpaceX logs successful late afternoon launch for Thaicom". Spaceflight Now.
- Weiss, Franziska (14 Jan 2017). "Livestream: Der erste SpaceX-Start seit der Explosion". SpaceX.
- "Spacex Gagged By Arms Rule." New Scientist 217.2907 (2013): 4–5. Academic Search Complete. Web. 4 Nov. 2015.
- "CRS-7 Investigation Update". SpaceX. 20 July 2015. Retrieved 11 November 2015.
- Stephen Clark (July 20, 2015). "Support strut probable cause of Falcon 9 failure". spaceflightnow.com. Retrieved April 14, 2016.
- SpaceX rocket exploded in an instant. Figuring out why involves a mountain of data LA Times September 2, 2016
- Nasr, Reem. "Musk: This Is What Caused the SpaceX Launch Failure."CNBC. Consumer News and Business Channel, 20 July 2015. Web. Retrieved 4 November 2015.
- Calandrelli, Emily. "Understanding The Aftermath Of SpaceX’s Failed Falcon Launch." TechCrunch. 29 June 2015. Web. 4 Nov. 2015.
- SpaceX CRS-7. Orlando: NASA, June 2015. PDF.
- "SpaceX on Twitter: Update on this morning's anomaly". twitter.com. Retrieved 2016-09-01.
- Calandrelli E, Escher A (16 December 2016). "The top 15 events that happened in space in 2016". TechCrunch. Retrieved 2016-12-16.
- SpaceX customer vows to rebuild satellite in explosion aftermath Orlando Sentinel, September 6, 2016
- Cohen, Nitzan (September 4, 2016). "Spacecom to claim Amos 6 compensation from IAI". Globes.
- Elon Musk: Launch pad explosion is 'most difficult and complex' failure in SpaceX's 14 years LA Times September 9, 2016
- Etherington, Darrell. "SpaceX investigation suggests helium breach caused its Falcon 9 explosion". TechCrunch. Retrieved 2016-09-26.
- Hull, Dana (2016-09-23). "SpaceX Sees Clue to Rocket Blast in Super-Chilled Helium Breach". Bloomberg.com. Retrieved 2016-09-26.
- Elon Musk says SpaceX finally knows what caused the latest rocket failure The Verge, November 7, 2016
- Belfiore, Michael. "Inside SpaceX: We Visit the Company's California Headquarters – Slide 3".
- "Inside SpaceX: We Visit the Company's California Headquarters".
- Shotwell, Gwynne (June 4, 2014). Discussion with Gwynne Shotwell, President and COO, SpaceX. Atlantic Council. Event occurs at 37:50–38:58. Retrieved June 9, 2014.
We are vertically integrated. ... Metal—in sheet format, in wire format, and in block format—comes into our Hawthorne facility and rocket stages roll out. ... eliminating the exponential G&A and fee additions [that are experienced when you have] multiple layers of integration. ... For every dollar that comes in we spend [about] 63 cents of each dollar of revenue on subcontractors and suppliers, [but at] a lower-level of integration (wires, connectors, raw materials).
- "SpaceX – About". SpaceX.
- Bishop, Todd (2014-10-06). "SpaceX launching Seattle-area office, recruiting squadrons of Microsoft engineers". GeekWire. Retrieved 2014-10-07.
- Mohney, Doug (2011-09-26). "SpaceX Plans to Test Reusable Suborbital VTVL Rocket in Texas". Satellite Spotlight. Retrieved 2011-11-23.
- "Reusable rocket prototype almost ready for first liftoff". Spaceflight Now. 2012-07-09. Retrieved 2012-07-13.
SpaceX has constructed a half-acre concrete launch facility in McGregor, and the Grasshopper rocket is already standing on the pad, outfitted with four insect-like silver landing legs.
- Paur, Jason (2012-10-10). "Inside SpaceX's Texas Rocket-Testing Facility". Wired. Retrieved 2012-12-31.
- Lindsey, Clark (2013-05-07). "SpaceX to test Grasshopper reusable booster at Spaceport America in NM". NewSpace Watch. Retrieved 2013-05-07. (subscription required (. ))
- "SpaceX Joining Virgin Galactic at Spaceport America". Sci-Tech Today. 2013-05-08. Retrieved 2013-05-09.
SpaceX will be paying $6,600 a month to lease a mobile mission control facility and will pay the state $25,000 per launch.
- Klotz, Irene (2013-08-02). "SpaceX Appetite for U.S. Launch Sites Grows". Space News. Retrieved 2013-09-05.
- Bergin, Chris (5 April 2011). "SpaceX: Falcon Heavy, Falcon 9 tag team set to share 20 launches a year". NASASpaceFlight. Retrieved 15 May 2015.
- Dean, James (2013-04-03). "Proposed Shiloh launch complex at KSC debated in Volusia". Florida Today. Retrieved 2013-04-06.
- "Details Emerge on SpaceX's Proposed Texas Launch Site". Space News. 2012-04-16. p. 24. Retrieved 2013-08-30.
SpaceX is considering multiple potential locations around the country for a new commercial launch pad. ... The Brownsville area is one of the possibilities.
- Rush, Johna Strickland (2012-11-15). "Spaceport could land in Camden". Tribune & Georgian. Retrieved 2012-11-20.
- Perez-Trevino, Emma (2012-09-13). "Sanchez: Texas offering $6M, Florida giving $10M". Brownsville Herald. Retrieved 2012-09-16.
- Office of the Governor, Press Release, Monday, August 04, 2014 (accessed August 5, 2014).
- Berger, Eric (5 August 2014). "Texas, SpaceX announce spaceport deal near Brownsville". MySanAntonio.com. Retrieved 2014-08-05.
- Martinez, Laura B. (2013-04-15). "FAA shares SpaceX EIS report". The Brownsville Herald. Retrieved 2013-04-17.
'no impacts would occur' that would force the Federal Aviation Administration to deny SpaceX a permit for rocket operations near Brownsville.
- L. David, "SpaceX receives FAA approval for proposed spaceport in Texas", CBS News, July 15, 2014, (accessed August 5. 2014)
- Foust, Jeff (2014-09-22). "SpaceX Breaks Ground on Texas Spaceport". Space News. Retrieved 2015-09-28.
- Foust, Jeff (2013-04-01). "The great state space race". The Space Review. Retrieved 2013-04-03.
- Perez-Treviño, Emma (24 June 2014). "Mars theme returns in SpaceX land purchases". Valley Morning Star. Retrieved 25 May 2015.
- Perez-Treviño, Emma (23 October 2014). "SpaceX land holdings grow". Valley Morning Star. Retrieved 25 May 2015.
- Beutel, Allard (13 December 2013). "NASA Selects SpaceX to Begin Negotiations for Use of Historic Launch Pad". Retrieved 29 December 2013.
- Matthews, Mark K. (2013-08-18). "Musk, Bezos fight to win lease of iconic NASA launchpad". Orlando Sentinel. Retrieved 2013-08-21.
- "SpaceX wins NASA COTS contract to demonstrate cargo delivery to Space Station with option for crew transport" (Press release). SpaceX. 2006-08-18.
- "Remarks by Alan Lindenmoyer, Manager, NASA Commercial Crew & Cargo Program" (PDF). Minutes of the NAC Commercial Space Committee. NASA. 2010-04-26. Retrieved 2010-12-01.
- "NASA selects SpaceX's Falcon 9 booster and Dragon spacecraft for cargo resupply services to the International Space Station" (Press release). SpaceX. 2008-12-23. Retrieved 2015-02-23.
- "COTS contract" (PDF). NASA. Retrieved 2010-12-30.
- "Mission Status Center". SpaceFlightNow. Retrieved 2010-12-08.
- Bates, Daniel (2010-12-09). "Mission accomplished! SpaceX Dragon becomes the first privately funded spaceship launched into orbit and guided back to earth". The Daily Mail. London. Archived from the original on 2011-12-01. Retrieved 2011-07-08.
- Carreau, Mark (2011-07-20). "SpaceX Station Cargo Mission Planned". Aviation Week. New York: The McGraw-Hill Companies, Inc. Retrieved 2011-07-26.
- Ray, Justin (2011-12-09). "SpaceX demo flights merged as launch date targeted". Tonbridge, Kent, United Kingdom: Spaceflight Now Inc. Archived from the original on 2011-12-09. Retrieved 2011-12-09.
- Chow, Denise (2012-01-16). "1st Private Rocket Launch to Space Station Delayed". Space.com. New York. Archived from the original on 2012-01-18. Retrieved 2012-01-18.
- McGarry, Brendan. "SpaceX Becomes First Company to Dock Ship at Space Station". The San Francisco Chronicle.
- Chang, Kenneth (2012-05-22). "Private Cargo Rocket Heads to Space Station". The New York Times.
- Staff (2011-10-28). "Private Space Taxi's Crew Escape System Passes Big Hurdle". Space.com. Archived from the original on 2011-12-18. Retrieved 2011-12-18.
- "SpaceX Proposal for Commercial Crew Development Round 2" (PDF). NASA. 2011. Retrieved 19 March 2012.
- Morring, Frank, Jr. (2011-04-22). "Five Vehicles Vie To Succeed Space Shuttle". Aviation Week. Retrieved 2011-02-23.
the CCDev-2 awards, ... went to Blue Origin, Boeing, Sierra Nevada Corp. and Space Exploration Technologies Inc. (SpaceX).
- Rosenberg, Zach (2012-03-02). "SpaceX finishes crucial dress rehearsal before space station launch". FlightGlobal. Retrieved 19 March 2012.
- "NASA Announces Next Steps in Effort to Launch Americans from U.S. Soil". NASA. 3 August 2012. Retrieved 3 August 2012.
- "NASA Chooses American Companies to Transport U.S. Astronauts to International Space Station". NASA. 16 September 2014. Retrieved 18 September 2014.
- Wall, Mike (10 September 2015). "'Red Dragon' Mars Sample-Return Mission Could Launch by 2022". Space.com. Retrieved 2015-09-20.
- "Planning to send Dragon to Mars as soon as 2018. Red Dragons will inform overall Mars architecture, details to come". Twitter. SpaceX. Retrieved 29 April 2016.
- "SpaceX Awarded $100 Million Contract From U.S. Air Force for Falcon I" (Press release). SpaceX. 2005-05-02.
- "NASA Awards Launch Services Contract to SpaceX" (Press release). NASA. 2008-04-22. Retrieved 2008-04-22.
- Lindsay, Clark (2012-12-05). "SpaceX awarded 2 EELV-Class missions from the USAF". NewSpace Watch. Retrieved 2012-12-05. (subscription required (. ))
- Klotz, Irene (2011-03-15). "SpaceX Wins An SES Satellite Launch". Aviation Week.
- "SpaceX seals biggest-ever commercial launch deal". flightglobal. 2010. Retrieved 2010-06-26.
- Secretary of the Air Force (26 May 2015). "Air Force's Space and Missile Systems Center Certifies SpaceX for National Security Space Missions". U.S. Air Force. United States. Retrieved 28 May 2015.
- "Air Force Certifies SpaceX for Missions, Ends Launch Monopoly". Fox News. 27 May 2015. Retrieved 28 May 2015.
- Davenport, Christian (26 May 2015). "Air Force certifies Elon Musk's SpaceX to launch national security missions". Washington Post. Retrieved 28 May 2015.
- "SPACEX SIGNS NEW COMMERCIAL LAUNCH CONTRACTS".
- "SpaceX wins $82 million contract for 2018 Falcon 9 launch of GPS 3 satellite". Space News. Retrieved 29 April 2016.
- Andrew Chaikin. "Is SpaceX Changing the Rocket Equation?". Air & Space Magazine. Retrieved 4 June 2015.
- Amos, Jonathan (2013-12-03). "SpaceX launches SES commercial TV satellite for Asia". BBC News. Retrieved 2013-12-11.
The commercial market for launching telecoms spacecraft is tightly contested, but has become dominated by just a few companies – notably, Europe's Arianespace, which flies the Ariane 5, and International Launch Services (ILS), which markets Russia's Proton vehicle. SpaceX is promising to substantially undercut the existing players on price, and SES, the world's second-largest telecoms satellite operator, believes the incumbents had better take note of the California company's capability. 'The entry of SpaceX into the commercial market is a game-changer'
- Belfiore, Michael (2013-12-09). "The Rocketeer". Foreign Policy. Retrieved 2013-12-11.
- Svitak, Amy (2014-02-11). "Arianespace To ESA: We Need Help". Aviation Week. Retrieved 2014-02-12.
- de Selding, Peter B. (2014-04-14). "Satellite Operators Press ESA for Reduction in Ariane Launch Costs". SpaceNews. Retrieved 2014-04-15.
- Ramli, David (19 May 2015). "NBN launcher Arianespace to cut jobs and costs to fight SpaceX". The Sydney Morning Herald BusinessDay. Fairfax Media. Retrieved 8 November 2016.
- de Selding, Peter B. (2014-11-20). "Europe's Satellite Operators Urge Swift Development of Ariane 6". SpaceNews. Retrieved 2014-11-21.
- Svitak, Amy (2014-03-10). "SpaceX Says Falcon 9 To Compete For EELV This Year". Aviation Week. Retrieved 2014-03-11.
Advertised at $56.5 million per launch, Falcon 9 missions to GTO cost almost $15 million less than a ride atop a Chinese Long March 3B
- Messier, Doug (2013-09-28). "China to Hold Long March Pricing Steady". Parabolic Arc. Retrieved 2014-12-14.
- Petersen, Melody (2014-11-28). "SpaceX may upset firm's monopoly in launching Air Force satellites". Los Angeles Times. Retrieved 2014-11-25.
- Avery, Greg (2014-10-16). "ULA plans new rocket, restructuring to cut launch costs in half". Denver Business Journal. Retrieved 2014-10-17.
- Petersen, Melody (2014-12-12). "Congress OKs bill banning purchases of Russian-made rocket engines". LA Times. Retrieved 2014-12-14.
Costs of launching military satellites has skyrocketed under contracts the Air Force has given to United Launch Alliance. The average cost for each launch using rockets from Boeing and Lockheed has soared to $420 million, according to an analysis by the Government Accountability Office.
- Shalal, Andrea (21 May 2015). "Lockheed-Boeing rocket venture needs commercial orders to survive".
- "Airbus dans la Silicon Valley : une occasion manquée pour l'Europe". lesechos.fr. 3 June 2015. Retrieved 6 June 2015.
- de Selding, Peter B. (12 January 2015). "Arianespace, SpaceX Battled to a Draw for 2014 Launch Contracts". SpaceNews. Retrieved 16 January 2015.
- Messier, Doug (2014-01-14). "Shotwell: Reusable Falcon 9 Would Cost $5 to $7 Million Per Launch". Parabolic Arc. Retrieved 2014-01-15.
- Money, Stewart (2013-01-30). "SpaceX Wins New Commercial Launch Order". Innerspace.net. Retrieved 2013-02-01.
- Messier, Doug (2014-01-18). "ESA Faces Large Cost for Ariane 5 Upgrade, New Ariane 6 Rocket". Parabolic Arc. Retrieved 2014-01-20.
- "Air Force's Space and Missile Systems Center Certifies SpaceX for National Security Space Missions". af.mil. Retrieved 4 June 2015.
- Gwynne Shotwell (2014-03-21). Broadcast 2212: Special Edition, interview with Gwynne Shotwell (audio file). The Space Show. Event occurs at 07:15–08:00. 2212. Archived from the original (mp3) on 2014-03-22. Retrieved 2014-03-22.
- "SpaceX undercut ULA rocket launch pricing by 40 percent: U.S. Air Force". Reuters. Retrieved 29 April 2016.
- Calendrelli E, Escher A (16 December 2016). "The top 15 events that happened in space in 2016". TechCrunch. Retrieved 2016-12-16.
- "SpaceX's Falcon 9 breaks EELV monopoly". Spaceflight Insider. 27 May 2015. Retrieved 15 July 2015.
- "Falcon 9 Overview". SpaceX. 2011. Archived from the original on 2011-12-01. Retrieved 2011-12-01.
- "Private space capsule's maiden voyage ends with a splash". BBC News. London. 2010-12-08. Archived from the original on 2011-12-01. Retrieved 2011-12-01.
- Kramer, Miriam (2014-05-30). "SpaceX Unveils Dragon V2 Spaceship, a Manned Space Taxi for Astronauts — Meet Dragon V2: SpaceX's Manned Space Taxi for Astronaut Trips". space.com. Retrieved 2014-08-15.
- "Falcon 1 Overview". SpaceX. 2011. Archived from the original on 2011-12-01. Retrieved 2011-12-01.
- Wade, Mark (2011). "Falcon 5". Encyclopedia Astronautica. Archived from the original on 2011-12-01. Retrieved 2011-12-01.
- "SpaceX Successfully Launches Falcon 1 To Orbit" (Press release). SpaceX. 28 September 2008. Retrieved 2008-09-28.
- Rowe, Aaron (2009-07-14). "SpaceX Launch Successfully Delivers Satellite Into Orbit". Wired Science. Retrieved 2009-09-14.
- "SpaceX announces the Falcon 9 fully reusable heavy lift launch vehicle" (Press release). SpaceX.com. 2005-09-08. Retrieved 2009-10-08.
- Canadian Press (2012-05-22). "Private SpaceX rocket blasts off for space station Cargo ship reaches orbit 9 minutes after launch". CBC News. Toronto. Archived from the original on 2012-05-22. Retrieved 2012-05-26.
- "Falcon Heavy Overview". SpaceX. 2011. Archived from the original on 2011-12-01. Retrieved 2011-12-01.
- Lindsey, Clark (2013-01-04). "NewSpace flights in 2013". NewSpace Watch. Retrieved 2013-01-03. (subscription required (. ))
- "Falcon Heavy: World's most powerful rocket", The Economic Times, 7 April 2011.
- "Falcon 9 Rocket completes Static Fire Test for next High-Energy Satellite Delivery Mission – Spaceflight101". spaceflight101.com. Retrieved 2016-07-27.
- Belfiore, Michael (2005-01-18). "Race for Next Space Prize Ignites". Wired.com.
- Cowing, Keith (2006-03-06). "The SpaceX Dragon: America's First Privately Financed Manned Orbital Spacecraft?". SpaceRef.com.
- "NASA selects crew, cargo launch partners". Spaceflight Now. 2006-08-18.
- Boyle, Alan (2006-08-18). "SpaceX, Rocketplane win spaceship contest". MSNBC.
- "NASA Selects Crew and Cargo Transportation to Orbit Partners" (Press release). NASA. 2006-08-18.
- "COTS Demo Flight 1 Press Kit" (PDF). SpaceX.
- This Week in Space interview with Elon Musk. Spaceflight Now. 2010-01-24.
- Elon Musk's SpaceX presentation to the Augustine panel. YouTube. 2009.
- Chow, Denise (2011-04-18). "Private Spaceship Builders Split Nearly $270 Million in NASA Funds". Space.com. New York. Archived from the original on 2011-12-18. Retrieved 2011-12-18.
- "SpaceX". NASA. Retrieved 19 January 2015.
- SpaceX Dragon Overview: Crew SpaceX website. Published 2014. Retrieved 14 December 2014
- Boyle, Alan (2014-05-21). "Elon Musk's SpaceX Plans DragonFly Landing Tests". NBC News. Retrieved 2014-05-22.
- Klotz, Irene (2011-09-27). "A rocket that lifts off — and lands — on launch pad". MSNBC. Retrieved 2011-11-23.
- Lindsey, Clark (2013-03-28). "SpaceX moving quickly towards fly-back first stage". NewSpace Watch. Retrieved 2013-03-29. (subscription required (. ))
- Gwynne Shotwell (2014-03-21). Broadcast 2212: Special Edition, interview with Gwynne Shotwell (audio file). The Space Show. Event occurs at 20:00–21:10 and 22:15–22:35. 2212. Archived from the original (mp3) on 2014-03-22. Retrieved 2014-03-22.
- Boyle, Alan (June 15, 2015). "Elon Musk's SpaceX Plans Hyperloop Pod Races at California HQ in 2016". NBC. Retrieved June 15, 2015.
- "Spacex Hyperloop Pod Competition" (PDF). SpaceX. June 2015. Retrieved June 16, 2015.
- SpaceX Delays Hyperloop Pod Competition http://fortune.com/2016/07/16/spacex-delays-hyperloop-pod-competition-to-2017/
- "SpaceX Updates — December 10, 2007". SpaceX. 2007-12-10. Retrieved 2012-12-26.
- "Falcon 9 Launch Vehicle Payload User's Guide, 2009" (PDF). SpaceX. 2009. Retrieved 2013-03-08.
- "Long term SpaceX vehicle plans". HobbySpace.com. 7 July 2009. Retrieved 2009-07-13.
- Todd, David (2012-11-20). "Musk goes for methane-burning reusable rockets as step to colonise Mars". FlightGlobal Hyperbola. Retrieved 2012-11-22.
"We are going to do methane." Musk announced as he described his future plans for reusable launch vehicles including those designed to take astronauts to Mars within 15 years, "The energy cost of methane is the lowest and it has a slight Isp (Specific Impulse) advantage over Kerosene," said Musk adding, "And it does not have the pain in the ass factor that hydrogen has".
- Todd, David (2012-11-22). "SpaceX's Mars rocket to be methane-fuelled". Flightglobal. Retrieved 2012-12-05.
Musk said Lox and methane would be SpaceX’s propellants of choice on a mission to Mars, which has long been his stated goal. SpaceX’s initial work will be to build a LOX/methane rocket for a future upper stage, codenamed Raptor. The design of this engine would be a departure from the open cycle gas generator system that the current Merlin 1 engine series uses. Instead, the new rocket engine would use a much more efficient staged combustion cycle that many Russian rocket engines use.
- "SpaceX propulsion chief elevates crowd in Santa Barbara". Pacific Business Times. 19 February 2014. Retrieved 22 February 2014.
- Leone, Dan (2013-10-25). "SpaceX Could Begin Testing Methane-fueled Engine at Stennis Next Year". Space News. Retrieved 2013-10-26.
- Vance, Ashlee. Elon Musk : How the Billionaire CEO of SpaceX and Tesla is Shaping our Future. Virgin Books (2015). ISBN 9780753555620
|Wikimedia Commons has media related to SpaceX.|
|Wikinews has news related to:|