By Sarah Jaffe The moon is an important place in the solar system, but it’s even more important on a planet.
As the Earth orbits around the sun, the moon is one of the largest objects in the universe.
On the other hand, the Earth is one small, rocky planet with relatively small moons.
In the year 2024, NASA will launch the first spacecraft to explore the lunar surface, the James Webb Space Telescope.
But the James is not scheduled to launch until 2022.
The mission is being spearheaded by the Space Science and Exploration Advisory Council, or SSEAC.
The Council is an advisory body composed of NASA scientists, engineers, and members of the public.
It’s the main vehicle for advising the president and other NASA officials on space science, including human exploration.
The SSEASC’s role has been to work with NASA to develop a strategy for human spaceflight.
But there’s also a role for the SSEPAC itself.
Its role has long been to help shape the national security and commercial interests of the United States.
Its mission is to guide and shape the nation’s space programs.
That role is important.
The James Webb telescope will help us understand our solar system.
It will help scientists understand how our sun, planets, and moons form and evolve.
But for the James, it will also help us learn about the lunar, asteroid, and comet orbits that may someday lead to our solar systems own formation.
The Moon’s Role As a Big Planet NASA has already studied the moon.
In fact, the agency has used data from the James to help calibrate its orbit of Earth.
NASA has spent a lot of money to do this, so NASA has built a massive network of satellites to take data from and analyze it.
But NASA’s biggest investment in studying the moon was the Apollo 13 lunar landing.
And the James’s observations have helped determine how far away the moon really is from Earth.
The International Space Station orbits at an average distance of about 1,200 kilometers.
But that’s about the distance from Earth to the moon, which is about 10 times the distance between the Earth and the sun.
When NASA launched the James in 2006, it used data gathered by NASA’s Apollo 11 mission to determine the moon’s orbit around Earth.
That orbit was based on the idea that the moon should be tilted slightly to the left.
But scientists have now learned that that was not the correct position for the moon to be.
The moon has actually been tilted to the right.
As it moves around the Earth, the gravitational pull from the sun is stronger than the gravity from the moon itself.
The sun is constantly pulling on the moon and causing it to rotate in a particular direction.
This rotation creates a drag force on the earth, which causes it to move.
In other words, the earth’s rotation is what determines the moon on a particular date.
And since the moon has an elliptical orbit, its orbit is always tilted towards the sun and away from the earth.
In this case, the lunar orbit around the earth is tilted in a specific direction, and NASA’s satellites have taken that tilt data and made it their own.
In 2019, the International Space Agency launched the Lunar Reconnaissance Orbiter, or LRO, and took that data and used it to estimate the moon as an object that’s moving around the world.
The orbit of the moon gives scientists a great opportunity to look at different places in space.
It gives them an idea of how the moon might have formed and moved around the solar systems history.
But it also gives them a great way to look back at past lunar activities.
LRO took the data it had collected on the lunar poles and used those data to determine how the lunar atmosphere and geology changed over time.
This was important because the Earth’s atmosphere is composed of gases.
As they get closer to the sun or get farther away, they lose their liquid form and become gas.
But if the atmosphere stays the same, they continue to change.
And that means that the atmosphere is constantly changing.
It changes in size, it changes in composition, and it changes the structure of the rocks.
As LRO orbits the moon in 2020, it collects data on the surface, but as it comes up to the lunar equator, the spacecraft also collects data from above.
The data is called a high-resolution imager.
The high-res image from the spacecraft gives scientists an idea about the surface structure of that particular region of the surface.
Because it’s the same surface all the time, the high-rez image shows a lot more detail than the low-res view.
LEO is currently studying the lunar moon and collecting data from there.
So in 2020 the mission will be making a high resolution view of the lunar north pole.
That’s where we’ll be looking at the southernmost point of the southern hemisphere.
This will give us an idea as to how the south pole and the poles in the south