Archives For nasa

Launch shot captured by Julian Leek.

Launch shot of the Atlas V and the MAVEN spacecraft captured by Julian Leek.

In the world of modern spaceflight, we are spoiled with close up imagery of rockets launching. Thanks to cameras mounted on the side of rockets we often get to ride along with the rocket watching stage separations in real time. After witnessing my first rocket launch in March of this year, SpaceX CRS-2 mission, I began wondering what type of photography equipment was needed to capture a rocket launch. With all of the long distance transmitting we see with space flight, it’s easy to imagine photographers in a room monitoring and maneuvering their cameras as the launch takes place. That doesn’t even come close to reality.

Before each NASA Kennedy Space Center launch, photographers from around the world gather on the launch pad to set up remotely triggered cameras. Getting the launch pad money shot is risky and involves careful positioning to keep cameras stable and protected from debris shooting from the launch pad flame duct. Before these cameras face earth shaking vibrations from the rocket engines igniting, they are often subjected to harsh coastal winds, rains, and changing temperatures—all of which are a camera’s worst enemy.

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Monday, November 18th, marks the first launch window for NASA’s next mission to Mars. The Mars Atmosphere and Volatile Evolution Mission (MAVEN), is NASA’s tenth Mars orbiter to be launched since 1996. MAVEN is the first orbiter dedicated to studying Mar’s upper atmosphere. This mission has three primary objectives:

  1. Determine the history of the structure and composition of the Martian upper atmosphere.
  2. The cause and rate that gasses escape the atmosphere to space.
  3. Use collected data to measure the prognosis of future atmospheric loss.

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Richard Garriott thinks we are heading into a new golden age of human space flight. One of the first things he mentioned in his SXSW talk was that just over 500 people have left the planet in 50 years of space flight. While he’s happy to be one of those people he agrees that number is dismal. When you factor the costs involved of sending those 500 people to space, the number is especially bleak. Just look at the overview of the International Space Station (ISS) it cost tens of billions to develop and a couple billion to maintain each year. The Shuttle was a couple hundred million per seat and the Souyoz, while cheaper, is about $50 million per seat. These enormous costs are one of the barriers to advancing human space exploration.

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I represented Pinehead as a part of a recent NASA Social event which allowed social media users access on the Kennedy Space Center (KSC) to cover the SpaceX CRS-2 launch on Friday, March 1. The day before the launch we were shown the Vehicle Assembly Building, launch pads, attended press conferences and science briefings, and had Q&A time with NASA officials.

If you think about space travel in the United States today, the outlook can seem dismal. The most recent major news about NASA has been the Shuttle retirement and the $726 million NASA will lose to sequestration. It’s no wonder people think NASA is closing down. What I discovered during my time KCS is, while budgets and active programs may be reduced, momentum at NASA has not been shaken.

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I’m so happy to announce that I’m going to be able to cover the launch from Cape Canaveral!! NASA chooses up to 50 social media users and grants them the same access to the launch as new media. The goal is to align the experience of the two media groups recognizing social media groups can reach audiences traditional news media may not.

The launch is currently scheduled for Friday, March 1 at 10:10 EST. The day before the launch there will be a whole day of briefings of press conferences so I will be bringing you updates through out the day.

Have questions about the launch, Falcon 9, Dragon, or Space Station? Post your questions in the comments below and I’ll do my best to get them answered. Looks like we will go to:

  • Ground Systems Briefing
  • ISS Science Press Conference
  • Heliophysics News Briefing (will be broadcast on NASA TV)
  • Pre-launch Press Conference.

We will also be meeting with Gwynne Shotwell, president of SpaceX, and Jim Adams, NASA’s deputy chief technologist.

 

FREE T-SHIRTS! WHAT?

That’s right, if you show Pinehead and Tyra some love and re-tweet some of the live tweets that are going on, we are giving away a boat load of shirts! How many? Not sure, probably at least ten!

SpaceX is eleven years old, has six successful launches on the books, and forty-one missions scheduled between now and 2017. Their next mission, CRS-2, for NASA is scheduled for launch on March 1. This launch is the second of twelve contracted between NASA and SpaceX to completed by 2015.

Still frame from the CRS-1 webcast of the Falcon 9 pressure relief panels being ejected.

Still frame from the CRS-1 webcast of the Falcon 9 pressure relief panels being ejected.

The Falcon 9 and Dragon last flew in October 2012. The Dragon docked successfully with the International Space Station (ISS) and came back to earth safely. What seemed to get the most press coverage during the mission was an issue being reported as an engine explosion. About a minute and nineteen seconds into the CRS-1 launch there was what looked like an engine explosion. This was not an explosion but an example of Falcon 9 redundancy in action. The Falcon rocket detected a sudden loss in pressure in Merlin engine 1 and issued a command to shutdown. The burst, debris, and plume of smoke were the pressure relief panels being ejected to protect engine 1 and surrounding engines. The flight computer then recalculated a new ascent profile and the Dragon continued on to the ISS.

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This article is part of a series that covers key features of the Dragon spacecraft and Falcon 9 rocket for the upcoming SpaceX CRS 2 mission launching on March 1st at 10:10 a.m. EST.

After liftoff and separation from stage one of the Falcon 9 rocket, the SpaceX Dragon capsule must successfully perform several functions to get ready to dock with the ISS. A few minutes after the Dragon separates from the second stage of the Falcon, at about T+12:00, the sequence to activate the solar arrays starts. Try to recall the COTS 2/3 mission webcast, there was cheering from SpaceX employees after the solar arrays deployed. While SpaceX employees have a right to cheer about every aspect of the Falcon and Dragon, the solar arrays are unique. Most spacecraft similar to Dragon only use battery power.

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The SpaceX Dragon launches March 1, 2013 at 10:10am EST, are you ready? For the past few of weeks we’ve been breaking down key systems of the Falcon 9 and Dragon to get you prepped for the SpaceX CRS-2 Commercial Resupply Services flight.

Here’s what you missed—

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Short for Laser Imaging Detection and Ranging, LIDAR is used for a variety of mapping, distance and speed measuring tasks. It is a key feature in unmanned vehicles, like the SpaceX Dragon spacecraft. SpaceX and NASA worked with Advanced Scientific Concepts (ASC) to design DragonEye, the 3D Flash LIDAR Space Camera developed for the Dragon.

While a DragonEye LIDAR sounds like a subplot to a James Bond movie, it is what the Dragon spacecraft uses to approach and position itself to dock with the International Space Station. Laser precision comes in handy when trying to attach the 1.3-meter hatch of the Dragon to the football-field-sized space station which travels at an astounding speed of 4.71 miles per second. Once the Dragon capsule passes the R-Bar, it has to preform a series of staggered maneuvers to gradually approach the ISS Keep out Zone, a 200-meter border around the ISS, and get ready for the Canada Arm to grab it at 10-meters out.

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The thruster we will see in action on SpaceX’s next launch on March 1st will be the Draco. The Draco thruster is the smallest engine in the SpaceX fleet but don’t let the size fool you, it packs 90 pounds (400 N) of thrust. The Draco is a liquid propellant thruster that uses Monomethyl Hydranzine. There is an oxidizer needed with a liquid rocket engine and SpaceX uses Nitrogen Tetroxide, the combination of orbital propellant and oxidizer that were used for the Space Shuttle.

SpaceX went with a liquid fuel rocket because, while the thruster design is more complex, the advantage is variable thrust meaning the amount of fuel and the fuel burn rate can change during flight. Liquid fuel rocket engines can not only be throttled but are able to shut down and be restarted. Having so many options for throttle and restart are helpful in a redundancy situation. It also aides in maneuvering the precise approach required for to berth with the International Space Station (ISS). The combination of the propellant and the oxidizer keeps the fuel stable allowing the Dragon capsule to be berthed to the ISS for up to a year, providing a life boat of sorts for our cosmonauts.

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