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Posted by <tapwater on April 5, 2006, 7:24 am
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Why don't manned spacecraft use this "stone skipping across a pond"
technique to return from earth orbit? The heat buildup would be reduced by
the cool-off between "plunges".
Is NASA hung up on the ballistic missile model that the rocket business
started with?
> http://www.jpl.nasa.gov/news/news.cfm?release=2006-048
>
> Guy Webster (818) 354-6278
> Jet Propulsion Laboratory, Pasadena, Calif.
>
> Erica Hupp (202) 358-1237
> NASA Headquarters, Washington
>
> 2006-048
>
> NASA's Mars Reconnaissance Craft Begins Adjusting Orbit
> March 31, 2006
>
> NASA's Mars Reconnaissance Orbiter yesterday began a crucial six-month
> campaign to gradually shrink its orbit into the best geometry for the
> mission's science work.
>
> Three weeks after successfully entering orbit around Mars, the
> spacecraft is in a phase called "aerobraking." This process uses
> friction with the tenuous upper atmosphere to transform a very
> elongated
> 35-hour orbit to the nearly circular two-hour orbit needed for the
> mission's science observations.
>
> The orbiter has been flying about 426 kilometers (265 miles) above
> Mars'
> surface at the nearest point of each loop since March 10, then swinging
> more than 43,000 kilometers (27,000 miles) away before heading in
> again.
> While preparing for aerobraking, the flight team tested several
> instruments, obtaining the orbiter's first Mars pictures and
> demonstrating the ability of its Mars Climate Sounder instrument to
> track the atmosphere's dust, water vapor and temperatures.
>
> On Thursday, Mars Reconnaissance Orbiter fired its intermediate
> thrusters for 58 seconds at the far point of the orbit. That maneuver
> lowered its altitude to 333 kilometers (207 miles) when the spacecraft
> next passed the near point of its orbit, at 6:46 a.m. Pacific time
> today
> (9:46 a.m. Eastern Time).
>
> "We're not low enough to touch Mars' atmosphere yet, but we'll get to
> that point next week," said Dr. Daniel Kubitschek of NASA's Jet
> Propulsion Laboratory, Pasadena, Calif., deputy leader for the
> aerobraking phase of the mission.
>
> The phase includes about 550 dips into the atmosphere, each carefully
> planned for the desired amount of braking. At first, the dips will be
> more than 30 hours apart. By August, there will be four per day.
>
> "We have to be sure we don't dive too deep, because that could overheat
> parts of the orbiter," Kubitschek said. "The biggest challenge is the
> variability of the atmosphere."
>
> Readings from accelerometers during the passes through the atmosphere
> are one way the spacecraft can provide information about upward
> swelling
> of the atmosphere due to heating.
>
> The Mars Climate Sounder instrument also has the capability to monitor
> changes in temperature that would affect the atmosphere's thickness.
> "We
> demonstrated that we're ready to support aerobraking, should we be
> needed," JPL's Dr. Daniel McCleese, principal investigator for the Mars
> Climate Sounder, said of new test observations.
>
> Infrared-sensing instruments and cameras on two other Mars orbiters are
> expected to be the main sources of information to the advisory team of
> atmospheric scientists providing day-to-day assistance to the
> aerobraking navigators and engineers. "There is risk every time we
> enter
> the atmosphere, and we are fortunate to have Mars Global Surveyor and
> Mars Odyssey with their daily global coverage helping us watch for
> changes that could increase the risk," said JPL's Jim Graf, project
> manager for the Mars Reconnaissance Orbiter.
>
> Using aerobraking to get the spacecraft's orbit to the desired shape,
> instead of doing the whole job with thruster firings, reduces how much
> fuel a spacecraft needs to carry when launched from Earth. "It allows
> you to fly more science payload to Mars instead of more fuel,"
> Kubitschek said.
>
> Once in its science orbit, Mars Reconnaissance Orbiter will return more
> data about the planet than all previous Mars missions combined. The
> data
> will help researchers decipher the processes of change on the planet.
> It
> will also aid future missions to the surface of Mars by examining
> potential landing sites and providing a high-data-rate communications
> relay.
>
> Test observations from the Mars Climate Sounder, other images and
> additional information about Mars Reconnaissance Orbiter are available
> online at http://www.nasa.gov/mro and at
> http://marsprogram.jpl.nasa.gov/mro
> <javascript:openNASAWindow('http://marsprogram.jpl.nasa.gov/mro')> .
>
> For information about NASA and agency programs on the Web, visit
> http://www.nasa.gov .
>
> JPL, a division of the California Institute of Technology in Pasadena,
> manages the Mars Reconnaissance Orbiter for NASA's Science Mission
> Directorate, Washington. Lockheed Martin Space Systems, Denver, is the
> prime contractor for the project and built the spacecraft.
>
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