A few years ago, Flat Iron theory was a popular topic on Reddit and other social media.
The theory holds that the Earth is flat, because it is made of mostly rock and water.
It is not.
The Earth is round because it has been round for millions of years.
The Flat Earth theory is popular among some religious believers and many conspiracy theorists.
The flat earth is a myth that has been around for a while, but it has also become a meme and the subject of a lot of popular media.
This meme originated with the “The Flat Earth and the Illuminati” documentary, which has been viewed more than 2.3 million times on YouTube and has been watched by millions.
The documentary features scientists and others debunking the Flat Earthers’ claims about the planet’s rotation.
In addition, many of the people who make up the Flat Earner community also make up Flat Earmuffs, or Flat Earthers.
In fact, the Flat Out Theory, a subreddit for Flat Earners, is the largest Flat Earth community on the web, with more than 10,000 members.
But this article, based on research from a team of astronomers, mathematicians, geologists, and physicists, argues that the Flat-Earth theory is an outdated myth and is based on incomplete data.
This article explains why and provides a way to get started debunking Flat Earning myths.
The article uses data from NASA’s Kepler satellite to find the positions of planets around other stars, which are used to find planets around the Sun.
Kepler has a “lunar trajectory” that shows a trajectory toward the center of the Earth.
Kepler orbits the Earth about every 4.8 years.
This means that planets are constantly being found that have been around since the Kepler mission began in 2007.
Kepler was first used to search for planets orbiting other stars.
Since that time, more and more planets have been discovered orbiting other star systems, and Kepler has also been used to discover planets orbiting distant stars.
So far, Kepler has found an incredible 1,817 planets.
The reason that Kepler finds so many planets is that the stars in the star’s habitable zone (where water is possible for liquid water to exist) are all very close to the Earth, and it is these stars that Kepler searches for planets.
To get a more accurate picture of the planets in our solar system, the Kepler spacecraft orbits at an orbital speed of 1,000 kilometers per second.
If a planet were to be found orbiting one of these stars, Kepler would have to fly at a much faster orbit than it would if it were located in our neighborhood.
As a result, Kepler must have detected a planet, so that it can be searched for more accurately.
Astronomers believe that the Kepler satellite’s observation of the stars Kepler-438 and Kepler-442 indicates that planets around stars like Kepler-437, Kepler-436, and so on have a chance of being rocky planets.
It’s also possible that the orbital speed that Kepler-434 and Kepler (also known as Kepler-433) fly at, at a distance of about 1,600 kilometers from the Sun, is a good indicator that a planet orbits in the habitable zone.
This information is provided in the chart below.
In the chart, red indicates that the planet orbits a star that is much closer to the Sun than the planet.
This indicates that there is a chance that a rocky planet may be orbiting the planet in question.
Green indicates that a red planet orbits at a star with a lower orbit velocity.
This suggests that a habitable planet may orbit a planet that is farther from the star than the Earth in the Kepler-43 system.
Red planets are known to orbit near stars with similar orbits.
These red planets are thought to be rocky.
This shows that there are planets that are closer to Earth than other planets in the system.
So, what are these red planets?
Red Planet The Red Planet is a rocky object that orbits a red dwarf star in our Solar System.
This is because there is no liquid water on the surface of the Red Planet.
This makes the Red World a hot spot in the Solar System, and a Red Planet orbits near it.
A Red Planet also orbits a planet in the Alpha Centauri system, a distant star system in the constellation of Cygnus.
This Red World is located in the Virgo Cluster.
The Red World, the Earth’s neighbor to the Red Giant Dwarf Star, is about 2,000 light years away.
This gives the Red world a relatively close orbit to Earth.
A closer orbit means that there’s more gas around the planet, which can provide more water for life to exist.
The water on Earth, when heated, forms ice.
As the temperature rises, the water freezes.
When this happens, it forms icecaps.
The surface of a Red World that orbits at the same orbital speed as our Earth would be warmer than the surface temperature of a planet at a lower orbital