Inside the spacecraft that could send humans to Mars in the 2030s, there’s a question that NASA hasn’t been able to answer yet: How well does it actually work?
It all starts with the thrusters.
The spacecraft is a combination of a giant rocket engine and a parachute.
It uses two large thrust chambers, each with a huge hole in it.
When the rocket is moving, it is propelled by two large fans, one that rotates around the engines, and one that drives a belt of thrusters that keep the vehicle steady.
When it stops moving, the engine will start to rev up again.
The engine uses about 200 million watts of power and a total weight of about 1.3 tons.
The parachute is the same size, but is much smaller.
The parachutes are used to slow the vehicle down, so it is able to safely land on the surface of Mars.
This is the first time the rocket has been tested.
The team behind it has been working on it since 2010.
Now the NASA spacecraft is ready for prime time.
The spacecraft will be about 15 feet (4 meters) long, about half the size of a car.
It has a diameter of about 6 feet (1 meter), which is roughly the same diameter as the human body.
The crew capsule, or rovers, are made of titanium and aluminum and weigh about 400 pounds (220 kilograms).
The spacecraft will have a length of about 10 feet (3 meters), with a diameter that is about 2 feet (0.8 meters).
The craft will weigh about 12,000 pounds (6,000 kilograms) when fully assembled, according to NASA.
The first thing you will notice about the craft is its appearance.
The shape is a bit like a large, square-shaped robot, but with a smaller body, similar to a toy.
The nose is a big round shape that looks like a big, rectangular robot.
The body has a very long tail and a huge head.
Inside the spacecraft, the team behind the design has been hard at work.
There is a lot of work being done on the rocket engine to make it as efficient as possible.
The craft is being made from titanium, which is lighter than steel, and the design uses an all-steel structure.
The structure is made from carbon fiber reinforced plastic, which also gives it an aluminum look.
This is important because titanium is lighter.
The other part of the spacecraft is the solar array, which contains a lot more panels than the main body.
It is made of aluminum, which has more than twice the strength of steel, but only about a quarter of the strength.
The array is designed to be able to withstand about 1,000 tons (1,300 kilograms) of thrust.
That means the spacecraft can fly up to 8,000 feet (2,500 meters) above the surface and up to 20 miles (32 kilometers) above Mars.
It is important to note that this craft is still in a prototype stage.
It still has some design flaws, such as the lack of a landing site, which could slow the craft down and make it less efficient.
But if the team can solve these design problems, the craft should be able fly around the moon and Mars in about two years, NASA said.
To get to Mars, the spacecraft will use a lot fewer thrusters, which are designed to only generate about 40 percent of its maximum thrust.
The rocket and parachute can be shut down when the craft comes to a stop, but the spacecraft still has a lot to do to stay safe.
The mission will last for about three months, NASA estimates.
The craft will be capable of staying in the atmosphere for about seven months, before the engines will need to be restarted to get it back up to its full speed.