The opening credits of “Star Wars: The Last Jedi” were greeted with a burst of static.
But there was a little something extra: the eyes.
There’s a special visual effect to the eyes of Darth Vader in the opening credits.
And it’s not the eyes that give the credits their title, the eyes are the lightsabers.
The lightsaber is used by Luke Skywalker in the first two films to destroy the Death Star, the largest in the universe.
That first appearance of the lightsaber was actually a reference to the lightsaber, according to Lucasfilm chief creative officer Kathleen Kennedy.
The film’s first director, J.J. Abrams, called the lightsaber “the ultimate weapon.”
In the new film, however, Vader uses it to attack the Rebel Alliance and the Resistance.
“There’s an element of the Sith in the lightsaber,” Kennedy said.
“The lightsaber is something that’s just part of the mythology of the franchise.”
But what exactly does that lightsaber actually do?
The lightsaber has a special power: it’s the only lightsaber in the Star Wars universe that can create light sabers.
It also has a unique design, a black and white, white-edged blade that is actually made from a single crystal.
The crystal is made by a group of advanced scientists in the far reaches of the galaxy.
It’s called a terraforming crystal, and its name is a play on the word terraform, which is a process that involves building a structure out of a material that was once rock or clay.
The lightsaber is an extremely rare crystal.
Only three of these crystals are known to exist, and they’re all in the hands of a single individual.
“These are the few that are really the most ancient of the terraforms,” said Robert C. Martinez, a professor of materials science and engineering at Purdue University.
“They’re not used in the world of science fiction, but the ones that are used are really valuable and are rare.”
The crystals are not only rare, but they’re also extremely fragile.
There are about 3,000 terraformed crystals that exist.
They’re made by people with advanced training and knowledge of the process.
“If you look at the materials, there’s a lot of gold in them,” Martinez said.
And the crystals are all in a state of flux.
“You can put a bit of gold on the crystal, it’ll go into a fire.
It’ll go out of balance, it might break and go in the trash.
It will go through a million cycles before it gets back to a pristine state,” Martinez added.
The crystals that are found in Star Wars are highly resistant to corrosion and will last for thousands of years, even millions.
The more you look, the more it’s just like a gem.
“All these metals and minerals are not made in a vacuum,” Martinez explained.
And you can have that happen, and it can cause the crystals to wear down. “
But when you put it into water, it breaks down, it starts to corrode and it’s very brittle.
And you can have that happen, and it can cause the crystals to wear down.
So you end up with crystals that don’t last as long as they should.”
So what makes the crystals so valuable?
They’re used in a variety of different projects.
For example, they can be used to build buildings and other objects that are lighter and lighter in weight.
They can be integrated into computer chips, which make them more efficient, and are also used in space applications, like spacecraft.
And because the crystals have a high melting point, they’re used to make super thin, flexible films that can be applied to solar panels.
The materials are also a big part of space rockets and space vehicles.
For instance, the crystals that were used in an early SpaceX Falcon 9 rocket are used in several components of the vehicle, including the landing gear.
“That was the first stage of the landing,” Martinez told the AP.
“It was basically a landing gear that was welded together from pieces of metal.
So there was this huge piece of metal that went all the way around the stage, and then this whole landing gear got welded on top of that.
That was really the beginning of SpaceX.”
The material is also used for parts of the interior of spacecraft, like the landing legs and the thrusters that power the craft.
“Spacecraft are very complex systems.
They have a lot going on inside, and you want to make sure that the system works,” Martinez continued.
“We’ve got to get it right.
So the idea is to have that sort of modular, self-contained system that has redundancy.
So we’re trying to build an entirely modular spacecraft that’s designed to be reused.
It has to be built