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Summary
Stage I
Solid Rocket Motors
Payload Fairing
Stage II
Stage III
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Launch Vehicle

LAUNCH VEHICLE PARTS
Summary | Stage I | Solid Rocket Motors | Payload Fairing | Stage II | Stage III

A launch vehicle provides the velocity needed by a spacecraft to escape Earth's gravity and set it on its course for Mars.

Read more about the launch vehicle on these pages.

Rovers launched on Delta IIs

When mission planners are considering different launch vehicles, what they take into consideration is how much mass each launch vehicle can lift into space. The Boeing Delta II launch vehicle was selected for the Mars Exploration Rover mission because it has the right liftoff capability for the weight requirements and because it's extremely reliable.

The Delta II family of launch vehicles has been in service for over 10 years and has successfully launched 90 projects including the last five NASA missions to Mars: Mars Global Surveyor and Mars Pathfinder in 1996, Mars Climate Orbiter in 1998, Mars Polar Lander in 1999, and Mars Odyssey in 2001.

Details On the Launch Vehicle

Deltas are expendable launch vehicles (ELVs), which means they are only used once.

The Rover A mission used a standard Delta II 7925 when it launched June 10, 2003. The later Rover B launch July 7, 2003, needed more energy to get to Mars, so it launched on a Delta II 7925, where "H" stands for "Heavy." Learn about the launch vehicle differences and the reasons for them.

The major elements of the Delta Rockets for the MER missions, however, are nearly identical. Each launch vehicle consists of:

Stage I: Fuel and oxygen tanks that feed an engine for the ascent
Solid Rocket Motors: Used to increase engine thrust; 9 total, 6 of which are lit at liftoff, 3 a minute into flight
Payload Fairing: Thin metal shroud or nose cone to protect the spacecraft during the ascent through Earth's atmosphere
Stage II: Fuel and oxidizer and the vehicle's "brains"; fires twice, once to insert the vehicle-spacecraft stack into low Earth orbit and then again to orient the third stage prior to it firing
Stage III: Solid rocket motor provides the majority of the velocity change needed to leave Earth orbit and inject the spacecraft on a trajectory to Mars; connected to the spacecraft until done firing, then separates

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