Category Archives: Spaceflight & Parabolic Flight

Events, Rockets, Spaceflight & Parabolic Flight

Video: NASA announces astronauts for first commercial crew flights to the ISS

NASA is announcing today the selection of astronauts who will fly to the  International Space Station on the Boeing Starliner and SpaceX Crew Dragon transports, which are scheduled to make the first crew launches next year. The event is webcast from NASA’s Johnson  Space Center in Houston. [ Here is a video of Friday’s event:

And here is a brief video from NASA Johnson about the Commercial Crew Program:

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Update 3: Brief bios of the selected astronauts:

From left: Suni Williams, Josh Cassada, Eric Boe, Nicole Mann, Chris Ferguson, Doug Hurley, Bob Behnken, Mike Hopkins, Victor Glover

More at

Update: A video released today by NASA promoting the Commercial Crew Program:

Update 2: Here is a NASA item about the commercial crew test flights:

Flight Tests to Prove Commercial Systems Fit for Human Spaceflight

NASA’s Commercial Crew Program is working with the American aerospace industry as companies develop a new generation of spacecraft and launch systems to carry crews safely to and from low-Earth orbit – the SpaceX Crew Dragon and Boeing CST-100 Starliner. Credits: NASA [Higher-res image]
The first test flights for new spacecraft designed by commercial companies in collaboration with NASA to carry astronauts to and from the International Space Station from the United States are known as Demo-1 for SpaceX and Orbital Flight Test for Boeing.

NASA’s goal in collaborating with Boeing and SpaceX is to achieve safe, reliable and cost-effective transportation to and from station on the companies’ spacecraft. Both companies have matured their designs, are making significant progress through their extensive testing campaigns, and are headed toward flight tests to validate their systems.

An uncrewed flight test was not a NASA requirement for certifying these systems for human spaceflight. Boeing and SpaceX volunteered to perform these tests to demonstrate their systems are safe for crew.

“This was above and beyond the NASA requirement in the contract,” said Kathy Lueders, Commercial Crew Program manager at NASA Kennedy. “Both partners said they really wanted to have an uncrewed flight test to make sure the integrated rockets, spacecraft and re-entry systems are all working as designed to be able to ensure the integrated system is functioning.”

Each test flight will provide data on the performance of the rockets, spacecraft, ground systems, and operations to ensure the systems are safe to fly astronauts. Boeing’s CST-100 Starliner spacecraft will be launched atop a United Launch Alliance Atlas V rocket from Space Launch Complex 41 on Cape Canaveral Air Force Station in Florida.

“Tomorrow we will meet the astronauts who will be the first to fly the CST-100 Starliner. Our commitment has always been to provide NASA and those crews the highest level of mission assurance,” said John Mulholland, vice president and program manager for Boeing’s Commercial Crew effort. “We believe the earliest time we can confidently do that will be in mid-2019 after flying an uncrewed flight test late this year or early next year. I’m incredibly proud of the progress our team has made, and it has been inspiring to watch them work through challenges quickly, while developing a brand new human-rated spacecraft that Boeing, NASA and the nation can be proud of.”

SpaceX designed its Crew Dragon spacecraft to launch atop the company’s Falcon 9 rocket from historic Launch Complex 39A at NASA’s Kennedy Space Center in Florida.

“Safely and reliably flying commercial crew missions for NASA remains the highest priority for SpaceX,” said Benji Reed, Director of Crew Mission Management at SpaceX. “We look forward to launching Crew Dragon—designed to be one of the safest, most-advanced human spaceflight systems ever built—and returning human-spaceflight capabilities to the United States for the first time since the Space Shuttle Program retired in 2011. SpaceX is targeting November 2018 for Crew Dragon’s first demonstration mission and April 2019 for Crew Dragon’s second demonstration mission, which will carry two NASA astronauts to and from the International Space Station.”

NASA is making crew assignments now for the Boeing Crew Flight Test and SpaceX Demo-2 to support flight training as we return to launching our astronauts from American soil. As a partner approaches its target readiness date, NASA will work with the company and the Eastern Range to identify launch dates within the busy International Space Station schedule to ensure science investigations, as well as logistics activities and critical operations continue while these new spacecraft are tested.

Many of the team members leading the unique public-private partnership believe the agency is on the cusp of something life changing with its Commercial Crew Program.

“I’m excited to be part of the future of space travel,” said Jon Cowart, acting deputy manager for the Commercial Crew Program’s Mission Management and Integration office at NASA’s Kennedy Space Center in Florida. “When we get to this point the companies will have tested every piece of the spacecraft individually, but there is so much more learning that occurs when the spacecraft is actually operated in space. The systems will be operated in the actual environment to test it and ensure it’s ready for crew.”

The hardware for these uncrewed missions is being prepared for launch. Boeing’s Starliner spacecraft is being outfitted at the Commercial Crew and Cargo Processing Facility on the Kennedy and the United Launch Alliance Atlas V dual engine Centaur that will launch Starliner will be shipped to Cape Canaveral Air Force Station in Florida in August to prepare for the upcoming flight. Separately, SpaceX’s Crew Dragon spacecraft for Demo-1 arrived to the Cape in July for final processing. Falcon 9’s first and second stages for the Demo-1 mission are targeted to ship from SpaceX’s headquarters in Hawthorne, California to the company’s rocket testing facility in McGregor, Texas for additional testing in August.

Once the uncrewed flight tests are complete and the data reviews have validated the spacecraft systems, NASA astronauts will have their first opportunity to fly in the spacecraft. Crew for Boeing’s Crew Flight Test and SpaceX’s Demo-2 flights will each include at least a flight commander and pilot aboard to test out the systems.

These flight tests will have similar configurations to the uncrewed tests, but the crew will have the ability to interface with spacecraft displays, communicate with mission control, and practice manual controls during flight. Starliner and Crew Dragon will dock and undock autonomously to the space station before returning the crew safely home.

“The crew right now is actually working on integrated crew simulations on the flight systems,” said Lueders. “They are providing input to the partners to help ensure the interior of the cabin is appropriately located and set up so crew can function and conduct key activities. They’re verifying crew layout, doing simulations where they’re actually practicing their maneuvers, and also checking out the software and the display systems, and everything else for the crew to be functioning safely in the spacecraft.”

After successful completion of the flight tests with crew, NASA will review flight data to verify the systems meet the agency’s safety and performance certification requirements and are ready to begin regular servicing missions to the space station.

“I see parallels between commercial crew and the early aviation industry, when government nurtured that commercial innovation,” said Cowart. “In similar fashion, NASA is empowering private industry to gain solid footing in low-Earth orbit, which will allow NASA to explore new frontiers in deep space.”

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Rockets, Space participation, Spaceflight & Parabolic Flight

Video: Virgin Galactic VSS Unity rocketplane reaches 52 km on third powered flight

On Thursday, the Virgin Galactic‘s VSS Unity rocketplane reached Mach 2.47 in speed and 52 kilometers in altitude on the vehicle’s third test flight with the hybrid motor firing. This video shows highlights of the test:

If the program continues to make steady progress, the vehicle should cross the border of space this year,  perhaps within two or three more test flights. (Whether VG will define the 100 km Kármán line as the threshold to space or the USAF’s 80 km, has not been clarified yet.) Then sometime in 2019 they could begin taking six paying passengers at a time to space on a regular basis. Currently about 700 people are holding tickets for flights on Virgin Galactic SpaceShipTwo vehicles. The current ticket price is $250,000.

Blue Origin is on roughly the same time schedule with the New Shepard vertically launched system. New Shepard vehicles have reached over 100 km eight times on test flights since 2015 but without anyone on board. Unity, on the other hand, always has two pilots and will carry up to six passengers. The six passengers on a New Shepard will ride without pilots and instead rely on autonomous control.

Virgin Galactic posted the following statement about this week’s test:

Into the Mesosphere at Mach 2.4

Virgin Galactic’s Third Powered Flight on July 26th 2018

Virgin Galactic test pilots broke Mach 2 this morning, as VSS Unity took her third rocket-powered supersonic outing in less than four months. After a clean release from carrier aircraft VMS Eve at 46,500 ft, pilots Dave Mackay and Mike “Sooch” Masucci lit the spaceship’s rocket motor, before pulling up into a near vertical climb and powering towards the black sky at 2.47 times the speed of sound.

The planned 42 seconds rocket burn took pilots and spaceship through the Stratosphere and, at an apogee of 170,800 ft [52 km], into the Mesosphere for the first time. This region, often referred to by scientists as the “Ignorosphere”, is an under-studied atmospheric layer because it is above the range of balloon flight, and in the future is an area we can help the research community explore further.

After a safe landing back at Mojave Air and Space Port, Chief Pilot Dave Mackay summed up the experience:

“It was a thrill from start to finish. Unity’s rocket motor performed magnificently again and Sooch pulled off a smooth landing. This was a new altitude record for both of us in the cockpit, not to mention our mannequin in the back, and the views of Earth from the black sky were magnificent.”

Sooch added:

“Having been a U2 pilot and done a lot of high altitude work, or what I thought was high altitude work, the view from 170,000 ft was just totally amazing. The flight was exciting and frankly beautiful. We were able to complete a large number of test points which will give us good insight as we progress to our goal of commercial service.”

Every time VSS Unity is tested on the ground, or in the skies, we gain invaluable experience and fresh data. This continuously improves our modelling and helps us optimise objectives and test points as we progressively expand the flight envelope. Today’s test, among other things, gathered more data on supersonic aerodynamics as well as thermal dynamics.

VSS Unity lands after its third powered flight.

As it has been on previous flights, Unity’s cabin was equipped to gather data vital to the future safety and experience of our astronaut customers. These cabin analysis systems record a host of parameters that are designed to help us further understand the environment inside the cabin during powered flight – temperatures, pressures, humidity, acoustics, thermal response, vibration, acceleration and even radiation.

The carrier aircraft, VMS Eve, was piloted today by Todd Ericson and Kelly Latimer.

Congratulations to everyone at Virgin Galactic and The Spaceship Company today for achieving another significant step towards commercial service. With VSS Unity, VMS Eve and the pilots safely back on the ground, we will now analyze the post-flight data as we plan and prepare for our next flight.

For downloadable assets from today’s flight please visit our Press FTP.

Rockets, Space industry and microgravity R&D, Spaceflight & Parabolic Flight

Videos: Highlights of the Blue Origin Mission 9 New Shepard flight

Here is a brief video showing highlights of the Blue Origin‘s New Shepard flight on Wednesday:

And this video shows some scenes from a pre-launch briefing:

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Rockets, Space participation, Spaceflight & Parabolic Flight

Videos: Virgin Galactic’s “Unity” rocketplane makes second powered flight

Virgin Galactic is carrying out a series of test flights of the VSS Unity suborbital rocketplane. Each test is going faster and higher with the aim of reaching space (greater than 80 km height as they define it) before the end of this year. On Wednesday, Unity made the second flight with its hybrid motor firing: Richard Branson Welcomes VSS Unity Home from Second Supersonic Flight – Virgin Galactic.

The focus of today’s flight was to expand our understanding of the spaceship’s supersonic handling characteristics and control system’s performance with vehicle parameters that were closer to the ultimate commercial configuration. This involved shifting the vehicle’s center of gravity rearward via the addition of passenger seats and related equipment. The rocket motor burned for the planned 31 seconds and propelled Unity to a speed of Mach 1.9 and an altitude of 114,500 ft.[34.9 km]. As will be the case for future commercial flights, Unity’s unique re-entry feathering system was deployed for the initial descent before the final glide home to a smooth runway landing.

If all goes well, commercial flights would begin next year with flights from Spaceport America in New Mexico taking 6 passengers at a time on the trip of a lifetime. Over 700 customers have paid up to $250,000 to ride a rocket to space and back.

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Rockets, Space participation, Spaceflight & Parabolic Flight

Videos: Blue Origin New Shepard reaches new max altitude on latest test flight

On Sunday, Blue Origin flew an un-crewed New Shepard fully reusable rocket vehicle to 107 kilometers (351,000 feet or 66.5 miles), well above the internationally recognized border to space. Before reaching apogee the system split into two parts – the booster and the crew capsule. The booster used its rocket engine to make a soft touchdown on a landing pad while the crew capsule floated safely to the ground with parachutes.

This was the 2nd test flight for this particular vehicle, the third version of the New Shepard design, and the eighth flight overall. The company, owned by Amazon founder Jeff Bezos, plans to carry out several more test flights to prepare for flying employees by the end of the year. If all goes well, in 2019 they will begin making routine flights to space with six public ticket-owners on board at a time. (Sign up here to receive ticket info when it becomes available.)  In the meantime, they will be flying a diverse manifest of scientific and technology experiment payloads for paying customers.

Highlights of the New Shepard flight:

A replay of the complete live webcast:

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