When deciding on a launch vehicle, one should also consider other factors such as volumetric constraints, launch sites, and the availability of ride-sharing services. NASA has stated a long-term goal of making LEO accessible for tens of dollars per kilogram by 2040. The SpaceX website lists the F9 payload to LEO as 13,150kg. The operational costs of dismantling the engines for check-out, combined with the detailed thermal protection system maintenance and repair, meant the fastest turn-around-time between launches for the Space Shuttle was ~3 months. That reliability is why the US government continued to pay handsomely for ULAs services. The shuttle was a performance-oriented design. LV Performance", "Mars Orbiter Mission spacecraft and its challenges", "ABL Space Systems maiden flight fails after liftoff", https://www.theguardian.com/science/live/2022/nov/16/artemis-1-nasa-rocket-launch-moon-mission-space-live-updates, "Japanese sounding rocket claims record-breaking orbital launch", "Experimental Launch of World's Smallest Orbital Space Rocket ends in Failure", "India's new SSLV rocket fails in first launch", "Commercial Chinese companies set sights on methalox rockets, first orbital launches", "Looks like Zhuque-2 second stage failed to reach orbital velocity. If the overall trend continues, access to space may become relatively affordable to most people during the second half of this century. "NASA's goal is to reduce the cost of getting to space to hundreds of dollars per pound within 25 years and tens of dollars per pound within 40 years. We believe the next decade will contain the launch technology tipping point to grow the Space for Space economy beyond the realm of governments and science missions. And so the ULA monopoly persisted with very little incentive to innovate. Jiang Jie, a rocket scientist with the rocket's developer, the. Developing reusable launch vehicle technology for orbital payloads in China, Building up Canada's NewSpace industry as the first private launch provider in Canso, Nova Scotia, Launch services for small, micro and nano satellites, Developing the sea-launched Gravity-1 vehicle, Developing a fully-reusable suborbital spacecraft, Developing Blue Whale 1, a micro launch vehicle, Developing the re-usable Skylon spaceplane powered by SABRE propulsion, Offering hassle-free space transportation to dedicated orbits, Building technologies for responsive, reliable and economic access to space, Building a reusable three-person rocket ship for space tourism, Sugarhouse Aerospace is built on a simple idea - space shouldn't be reserved for governments and billionaires, Offering flexible launch capability with a cycle of less than thirty days to build, integrate, and launch, Developing scalable and sustainable space transportation technology to become the backbone of the near space economy, Committed to reducing the cost of entering space via reusable launch products, Providing passengers with a trip into the stratosphere, Selling reusable launch vehicles for small, sub-orbital scientific/experimental payloads, Developing the ERIS launch vehicles to provide reliable and cost-effective access to space, Applying autonomous technology to develop a resuable small rocket, Lowering the entry barriers to space and making space access affordable and sustainable, Buildig the Xogdor rocket to test payloads at supersonic speeds and at the edge of space, Building a private 3-stage nanosatellite launch vehicle in China, A Euro startup developing tech for suborbital & orbital launch services, dedicated to small payloads and nanosatellites, Integrated launch services for the Zenit Launch Vehicle via a mobile sea platform, Cost effective small satellite launch services from the United Kingdom, Commercializing new suborbital rocket technologies, Small satellite space launch via a kinetic launch system, Developing a zero-emission space tourism platform, Building rockets to launch small satellites, Commercial launch vehicle manufacturer and space launch provider in China, Developinig the world's first 100% reusable rocket, Developing the Firefly Alpha launch vehicle; highest payload performance with the lowest cost per kg to orbit in its vehicle class, Launching sratospheric balloons for research and promotional purposes, Offering commercial suborbital platforms for scientific research, commercial applications, and defense, Developing the Vega & Ariane launch vehicles, Providing routine launch access to Earth orbit for entrepreneurs and enterprises, Offers a range of sounding rockets, capable of flights up to 300km in multistage configurations, Lowering the cost of access to space with reusable launch vehicles, Balloons that lift anything from a few kilograms to several tons and are able to operate at an altitude as low as a few hundred metres or as high as 40 km, Developing the Ceres-1 and Pallas-1 launch vehicles, Designs, manufactures, and operates launch vehicles, propulsion systems, and satellites and related components, Developing suborbital rockets to proide access and research for traditional and New-Space markets, The first rocket company and launch site for cubesat payloads in New Zealand, SpaceX designs, manufactures, and launches advanced rockets and spacecraft, SSC designs sounding rocket vehicles, stratospheric balloon systems, and payloads, A joint venture between Lockheed Martin and Boeing, ULA produces the Vulcan, Atlas and Delta Launch Vehicle Families, UP Aerospace is a suborbital space launch and flight test service provider, Building a fleet of WhiteKnightTwo carrier aircraft and SpaceShipTwo reusable spaceships, The small payload orbital launch sister company to Virgin Galactic, The Stratollite is a remotely operated, navigable vehicle that can remain aloft for days, weeks, and months on end, iSpace is a Chinese private space launch company developing the Hyperbola rocket family, Launch vehicle manufacturer and launch services provider, Designing orbital-class launch vehicles that are autonomously constructed, Developing Dream Chaser, a multi-mission space utility vehicle designed to transport crew and cargo to low-Earth orbit, Formal press announcement confirming the company is no longer active, Website and all other media/materials are removed from the internet, Company re-classified (moved to a different SFR database), Website copyright has not been updated for 2+ years, No new company news/updates/press/social activity for 2+ years, No response after 2 weeks when contacted by SpaceFund via multiple channels. Last year, globally, there were 114 total rocket launches [per BryceTech's 2020 Orbital Launch Year in Review report]. A useful analogy is to buying a car, where the advertised price is for the no-frills base model, while theres the option of add-ons for additional fees (say, extra boosters to launch a heavier payload). Neglect the cost of the extension cord. Seattle-based startup STOKE Space Technologies thinks so. This means that it would cost about one more USD per kg to launch. . A Falcon Heavy launch vehicle from SpaceX. Launch Vehicles Capability Comparison: ISRO: As we previously described, . If youre a micro-satellite operator who cant sit around waiting for a larger launch vehicle to sell all its payload slots to other customers, this is a game-changer. Using a market price of $0.10 per kilowatt-hour, what would be the cost of launching a 70-kg adult into LEO? A suborbital test flight failed in 2006. For the sake of comparison, here's how ISRO's GSLV Mk III compares to some of the world's best launch vehicles. Public Domain This article incorporates text from this source, which is in the public domain. Definitely not more than one flight. On top of all those design considerations, many doubted the lower cost projections for reusable rockets were real. They charge on the order of $60/month. The Ariane 5 is to be succeeded by the Ariane 6 in 2020 or 2021. 9. However, before being judgmental and dismissive, one must look at what ISRO has achieved with its shoestring budget. Click on the column heading to sort A-Z; click again to sort Z-A. The first Energy Earthshot, launched June 7, 2021Hydrogen Shotseeks to reduce the cost of clean hydrogen by 80% to $1 per 1 kilogram in 1 decade ("1 1 1"). Falcon 9 NAFCOM Updated Cost Estimate Comparison Updated (Cost Plus Fee Vs. Firm Fixed Price) Firm Fixed Price Acquisition Cost Plus Fee Acquisition Weight DDT&E 2 Test Flt Units Total DDT&E 2 Test Flt Units Total Elements (()lbs) (FY2010 $$)M) (FY2010 $$)M) (FY2010 $$)M) (FY2010 $$)M) (FY2010 $$)M) (FY2010 $$)M) After subtracting the amount of European Space Agency subsidies to Arianespace, the per . These innovations for very small and very large payload vehicles have led to lower costs for the launch industry as a whole. Humankind has been flinging scientific equipment, satellites, and even living things (including the occasional astronaut) into orbit for more than 50 years, often for eye-watering sums of money that only governments could afford. Still, these very technical big-dollar issues are increasingly being impacted by the changing economics and new generation of commercial space titans that are quickly transforming the launch industry. Is further launch cost reduction worth sitting in a holding pattern for many months while enough ride-share partners join? At a $90 million per launch, payload delivery cost by Falcon Heavy to LEO is $1,410/kg. Methuselah Foundation, the Singularity Institute for Artificial Intelligence, and the Lifeboat Foundation. Where in the space economy ecosystem does one draw the line to think about Space for Space? In 2019, Ars Technica reported that it could cost over $2 billion to launch the rocket once in a given year. When it comes to reliability, ULA has hit it out of the park the Atlas V is the only rocket ever manufactured to boast a 100% mission success rate. Aerospace professionals were skeptical of SpaceXs cost numbers because the only reusable launch vehicle they had data for was the space shuttle as seen in the chart below, reusable rockets werent always cheap! Many of the tiles had a unique geometry, and all were distinctly numbered. Home & Leisure The first medieval rockets were solid-fuel rockets powered by gunpowder; they were used by the Chinese, Indians, Mongols and Arabs, in warfare as early as the 13th century. Launch costs can be reduced somewhat by using reusable launch vehicles, but the poor cost performance of the reuseable Space Shuttle has caused many to question this idea. (Hot fire is the vernacular for lighting a rocket engine combustor. Interviews Most satellites have simple reliable chemical thrusters (often. Can anyone find a pie chart showing what part of this is so expensive? As with auto purchases, most launch customers negotiate "sticker price" discounts of anywhere from 10 to 15 percent, according to one expert. The notable technology achievements for the shuttle include the first ceramic tile-based heat shield and the first oxygen/hydrogen fuel-rich staged combustion cycle engine, the Space Shuttle Main Engine (SSME). SpaceX charges civil customers a highly competitive US$62 million for such a mission. The cost estimates for transportation to Mars cover a large span. Additionally, two rockets exploded on the launch pad, one in 2012 and one in 2019. This graph shows the declining costs of launching people and cargo into space. Government inefficiency and excess regulation. A reusable rocket engine design will carry more safety margin. Do you feel that your company should have a different rating? The Hydrogen Shot establishes a framework and foundation for clean hydrogen deployment in the American Jobs Plan, which includes support for demonstration projects. According to Le Gall, launching a satellite on an Ariane 5 costs around 100 million euros ($137 million). 12 These companies and others Browse Google Shopping to find the products you're looking for, track & compare prices, and decide where to buy online or in store. If you have a very small satellite - like a Cubesat - there are. At the earlier natural gas price of $5.05 a unit, PNG was priced at Rs 25.5 an scm or Rs 26.8 per million calorie, five per cent higher than LPG. if(typeof ez_ad_units != 'undefined'){ez_ad_units.push([[250,250],'futuretimeline_net-box-4','ezslot_3',115,'0','0'])};__ez_fad_position('div-gpt-ad-futuretimeline_net-box-4-0');NASA has stated a long-term goal of making LEO accessible for tens of dollars per kilogram by 2040. Weve also provided a considerable amount of additional data gathered during our research. The heat shield tiles required meticulously detailed inspection, taking hundreds of hours to complete. Shopping. These companies and their launch vehicles are in various stages of development, with some (such as SpaceX, RocketLab, and ULA) already in regular operation, while many new companies dont yet have financing or hardware. Important Disclaimer (*): an asterisk (*) indicates that the company is a SpaceFund portfolio company. While vehicle launch cost is a metric utilized when comparing vehicles, the cost per lb/kg launched is also an important factor that is not always directly correlated with the overall launch vehicle cost. (No cost estimates were provided for several other mega-rockets currently in development, such as NASAs Space Launch System.). Believe it or not, taxpayer-funded R&D laid some of the groundwork for high operability rockets. 2-3 years ago, the cost of sending 1 kg of payload into orbit ranged from . In this example, its shorthand for saying the engine will turn on for 3 qualification tests and once at lift-off.). The cost per lb/kg launched varies widely due to negotiations, prices, supply & demand, customer requirements, and the number of payloads . These companies and their launch vehicles are in various stages of development, with some (such as SpaceX, RocketLab, and ULA) already in regular operation, while many new companies don't yet have financing or hardware. Some examples of standard units are: Beef: price per kilogram The first mover in the commercial habitat space is Axiom, which will be able to leverage the substantial capabilities of the International Space Station while they build out their own. Prime Movers Lab invests in breakthrough scientific startups founded by Prime Movers, the inventors who transform billions of lives. But unlike during the early days of NASA preeminence, the rocket launch business over the past few years has matured into one where dozens of private companies around the globe are racing to see how cheaply they can send material into space. Its annual budget allocation this year is $1.4 billion. In FY21 dollars, newer launch vehicles tend to offer lower costs than older launch vehicles, with a gradual decline from 1957 to 2005, and a steeper decline between 2005 and 2020. As of April 2016, SpaceX has indicated that a Falcon Heavy could lift 2268 kg (8000 lbs) to GTO for a cost of $90 million a launch - which works out to $ 3968. Click a launch Of course that was 25 years ago. Now? Just add F9, and FH to the chart, if you want operational and proven rockets. Michael is a longtime AllTheScience contributor who specializes in topics relating to paleontology, SALE. Apple AirPods with Charging Case - 2nd Generation, White. My calculation omits at least as many factors as their calculation. The top two failure modes were addressed: the bearing technology was upgraded (ceramic ball bearings) and the high-pressure fuel turbine blades were hollowed out to deal with thermal shock induced cracking from the start transient (-400F to 2,000F in a half-second). Per todays stats on SpaceXs website, they have flown the Falcon 9 rocket on 125 missions, with 85 booster landings and 67 re-flown rockets. Larger launchers, such as SpaceX's Falcon 9 rocket, are able to provider cheaper costs per kilogram with high reliability which explains their positioning as cheaper producers and improved value. A similar concept, a launch loop, would accelerate a payload using powerful magnets to escape velocity, then launch it upwards. It will be true, because it 'must' become true for us to colonize Mars. Last updated: 1st September 2018. NASAs Commercial Orbital Transportation Services (COTS) program, https://aerospace.csis.org/data/space-launch-to-low-earth-orbit-how-much-does-it-cost/, McClesky and Zapata, Designing for Annual Spacelift Performance, 2017, McClesky, Space Shuttle Operations and Infrastructure: A Systems Analysis of Design Root Causes and Effects , NASA/TP 2005211519, Fastrac engine. Download: You can download this table as an Excel or CSV file by using the icons at the top of the table. Press releases, 21st century According to Northern Sky Research, the U.S. government traditionally pays about twice as much as the commercial average for GTO launches because of the greater sensitivity of what its sending up and the additional specificationsand coststhat requires. $13/kg works out to about $2,000,000/flight for a 150kg 150,000kg payload. This is much less likely now than it was even a year ago though, It only works about as well as F9. He has also worked for the The Jielong-3 or Smart Dragon-3 is a small-lift rocket that will operate at a competitive cost per mass of $10,000 a kilogram. Last year, globally, there were 114 total rocket launches [per BryceTechs 2020 Orbital Launch Year in Review report]. It has been determined that a sufficiently long cannon could be used to launch acceleration-resistant payloads into space, but no country has yet tried to build one, though a few companies are trying. Rocket Lab charges $5 million per flight. Using a more capable rocket would be overkill even if the theoretical price per kilogram cost is cheaper on a larger rocket: for a 200 kg small sat a $5 million small sat launch is cheaper than a $50 million dedicated Falcon 9 flight. to provide additional information about your technology, management team, funding history, and company progress. Using a new range of payload carriers, Vega-C will be able to accommodate a mix of cargo shapes and sizes, ranging from CubeSats as small as one kilogram up to a single large payload. Audacious & Outrageous: Space Elevators, 2017 Official SpaceX Photos (Bangabandhu Satellite-1 Mission) [CC0 or CC0], via Wikimedia Commons. Fuel. Not including Orion, that's another billion. And costs to LEO aren't much more expensive than delivering packages across the country or around the world. Latest features Arianespace intends to slash the cost of launching the Ariane 6 by around 40 percent . For some outfits, that means developing smaller rockets that are designed to carry just a few hundred kilograms into low-Earth orbit (LEO)generally altitudes of 2,400 kilometers (1,491 miles) or lessat a cost of as little as $250,000. ". (The space shuttle cost about $1.5 billion per mission, including development,. So far, the average costs of launching cargo remain on par with the space shuttle at about $30,000 per lb. Hell, I'm 6' tall and weighed more than 62kg even when i was pretty underweight for my height. This comparison of orbital launch systems lists the attributes of all individual rocket configurations designed to reach orbit. The cost per kilogram of Starship for low-earth orbit is $10 compared to $65,400 for the 1981-debuted Space Shuttle Columbia, which was the most expensive among the five launch vehicles Science . menu. Reusable orbital launch vehicles. An industry analysis by Citigroup forecasts launch costs for operators of $100 per kg to LEO by 2040, which would be reflected in significantly lower launch prices for customers . (For comparison, the Shuttles turn-around time was 24 months.) Harbaugh, Jennifer (9 July 2018). Of course, SpaceX has a goal for increased repetition rate with Starship, but to get there will require improvements in its tile thermal protection system. But it did fire its rocket engines many times without maintenance and it demonstrated the controls algorithms necessary for vertical landing. NASA continues the trend to larger vehicles with its proposed newest member in the heavy-lift launch family, the Space Launch System (SLS) Block 2 vehicle. For a fully expendable variant of the rocket, which can lift a theoretical maximum of 64 tons to low-Earth orbit, the price . SpaceX's website previously listed the cost of a Falcon 9 launch at $62 million. But the project (called Avatar), is expected to take another nine years to complete. How were they able to make an affordable reusable launch vehicle? Each bubble represents a launch vehicle and is sized according to Aerojet Rocketdyne was very proud that they were able to reduce the price for 1 engine to $100 million for the second batch. Transport & Infrastructure, Artwork Posted: 1st September 2018. We are also eager to learn about any additional data sources that can help us in our ongoing research, so please feel free to share any resources you know of with our team. Developing PROTEUS, an innovative hybrid and autonomous launcher for small sats, Providing launch services via HABs and sounding rockets, Long range heavy lift aircraft horizontal launches, Developing Infinity, a small reusable rocket, Developing high-performance, low carbon micro launch vehicles, Developing electromagnetic launch systems to change how we launch payloads into space, Developing a proposed "railway" to space that is safer, cheaper, and greener than rockets, Building a ballooning platform to offer novel access to the mesosphere, Aiming to provide affordable space tourism and rocket launch services, Dedicated to providing frequent and reliable space access, Disrupting space launch with a new kinetic launch system, Vertically launching low-cost orbital payloads from the UK, Designer of low-weight, low-cost satellites and small launching vehicles, SpaceBox is a suborbital launch and recovery platform designed to enable affordable access to space for educational, professional, consumer and hobbyist payloads, Making access to space widely available, less constrained and more efficient, Developing technology for cost effective, reliable, and frequent access to space, Developing the Otis electric vehicle for civil space transportation, Developing a solution for quick missions to LEO, Designing a single stage to orbit hypersonic vehicle of revolutionary design and propulsion capability, Building a single-stage to orbit launch system dedicated to small payloads, Developing an eco friendly, electromagnetic space launch system, Developing the Cheetah small launch vehicle, Aiming to provide orbital launches of small satellites for the most affordable prices, Rocketsan is developing a micro-satellite launch system for the Turkish government, Developing a reusable launch vehicle named Tianmeng, Working on a very low-cost Launcher to LEO, Building low cost, single stage and highly reusable launch vehicles, Customized launch services for sub-orbital and orbital payloads, Launching small satellites into space using high altitude balloons, Creating a dedicated, reusable, and low-cost suborbital rocket, Developing the UKs first commercially operated horizontal launch company for small to medium size satellites, Developing a hybrid, modular, affordable & air-launched rocket system that uses electric landing for reusability, Developing SOL ASPIRET, a suborbital spaceplane, Bringing about the next generation of low-cost, reusable launch vehicles, Developing a balloon-launched vehicle for smallsat payloads, Developing a unique seaborne launch system, Personalized engineering support and dedicated airborne orbital launch platform, Ultra low-cost rockets and satellite deployment, Revolutionizing near space tourism and opening it to a greater audience, Developing a reliable tow-glider launch system, Affordable and reliable small satellite launch system for LEO, SSO, and GEO missions, Developing a fleet of hybrid rockets for micro launch, Aiming to innovate space exploration technologies to deliver efficient and cost effective solutions for humanity, Developing single stage to orbit, fixed wing, hypersonic aircraft, Creating the small-sat launch vehicle of the future, Building light, two-stage rockets for small satellite launch, Cheaper access to space for nanosatellite payloads, Developing a novel, reusable hypersonic and space launch system, Developing exciting new space technologies, Developing a three-stage solid-propellant launch vehicle, Developing a reusable two-stage orbital-class launch vehicle, Striving to design, build, and launch rockets, in and from Canada, Developing the Phoenix small launch vehicle, Developing the Trans-Atmospheric Flight Vehicle (TAV 1), Hypersonic Delivery Systems: Suborbital & Orbital Missions, Developing suborbital and orbital launch vehicles, Developing a series of Launch Vehicles based on high-altitude air launch, Building a hypersonic space plane that can takeoff from anywhere in any weather, Developing the Space Jet air-launch platform, Developing a unique launch vehicle and propulsion system, Building a space launch system for sending hardened satellites and bulk cargo into space, Designing the Montenegro nanolauncher for launches at a very competitive price, The Dynamics Enhanced Launch Vehicle is designed for a life of over 400 reuses with very minimal maintenance and rapid turnarounds, Single Stage to Orbit (SSTO) rocket leveraging aerospike engine technology launching to low earth orbit, Providing rapid response small satellite launch vehicles for government and commercial customers, Provding dedicated launch services for cube and nanosatellites, Developing the Horizontal Takeoff Horizontal Landing (HTHL) AstroClipper for the future of commercial space transportation, Developing the Advanced Cryognic Expendable (ACE) launch vehicle, Developing a next generation of reusable launch vehicles for microgravity research. Beyond 10,000 AD $400 million for 4 engines. Click on a bubble to learn more about a vehicle. I know not to underestimate Elon but Ill believe that when I see it. For example, the propulsion had a requirement of a 50 mission life, yet the original Rocketdyne engines were replaced every one to two missions due to issues with the turbopumps. This comparison shows the huge technological gap between them. Archived from the original on 11 December 2019. Backing breakthrough scientific inventions transforming billions of lives. We and our partners use data for Personalised ads and content, ad and content measurement, audience insights and product development. A suborbital test flight was conducted in April 2018. When the space shuttle was in operation, it could launch a payload . Suborbital test flight in 2004, without Fregat upper stage. Though reaching orbit would still require expending the same amount of energy, it could be expended gradually rather than over the course of a few minutes, greatly expanding the number of options that could be used to get a payload to orbit. Have we missed your company? Satellites lost. Reusing the Falcon 9 first stage DID deliver on the promise of dramatically lower launch costs. An investigation of the performance potential of a liquid oxygen expander cycle rocket engine, by Dylan Thomas Stapp, Article from 2006: "A Falcon 1 launch costs US$6.7 million for up to 570 kilogrammes of payload delivered to orbit." Also, numbers to LEO are about as useless of a metric as you can give SLS. Unit pricing helps consumers compare prices and find the best value for money. Screen Size: The database is too big to fit on most screens, so youll need to use the scroll bar at the bottom of your screen to scroll right to see additional columns, and continuing scrolling down to see all 100+ companies. The costs for launching a chemical rocket have been reduced somewhat through innovation (private spaceflight) as well as equatorial launch services (such as Sea Launch). However, prices continue to fall with each passing decade as new technologies are developed and the sector becomes more commercialised. A conventional solid rocket or a conventional solid-fuel rocket is a rocket with a motor that uses solid propellants (fuel/oxidizer). The N1 rocket was initially designed for 75 t LEO capacity and launch attempts were made with this version, but there were studies to increase the payload capacity to 9095 t, if a liquid-hydrogen upper stage engine could be developed. The best way to update your information in this database is. (227 kilograms) during each mission. ", "Potentially, we're talking about just a few dollars per kg with the elevator." OIG begins its estimate with the total NASA has awarded SpaceX and Boeing since 2014, rounding it to $2.5 billion for the former and $4.3 billion for the latter. A new generation of smaller rockets with 7-figure-or-less launch costs and SpaceX's price competition are shaking up the launch industry, The California-based company has the cheapest rocket for launching to geosynchronous transfer orbit, The government often pays considerably more than private satellite companies, because of special mission requirements, First launched since 2017 or in development, Data: Federal Aviation Association "The Annual Compendium of Commercial Space Transportation: 2018", Data: Federal Aviation Association, National Aeronautics and Space Administration, SpaceX. For example, the cost per launch of a PSLV rocket is $18 million to $28 million, the cost per launch of GSLV is $47 million, and GSLV Mark III is $51 million. Anything below this price and we're in the range of "sci-fi" launch systems life space elevators and launch loops. Is the listed data inaccurate or outdated? A first list contains rockets that are operational or in development as of 2022; a second list includes all retired rockets. From its founding in 2002 to its first launch attempt in May 2006, SpaceX spent about $100 million developing the Falcon 1 rocket, which had a comparable lift capacity as LauncherOne of about one . The optimistic numbers we've heard from Elon have been ~$5 million/launch, with SpaceX probably charging modern prices for satellite delivery to orbit.