NASA Confirms 5,000 Exoplanets Beyond Our Solar System, Another 'New World'


On March 6, 2014, NASA's Juno Space Telescope discovered Jupiter and Saturn, their moons Io and Europa and everything in between as they began to orbit each other.

Juno has been researching and studying Jupiter since 1999 when it first appeared. The planet is known as the largest universe in the universe, larger than the earth and the sun. And it is one of the many moons of Jupiter and the largest of them all. At 700 miles [700 km], it may weigh 3 times as much as Mount Everest.

Jupiter is very hot at the top but there are still indications that it may have oceans below (and above) above. Jupiter is very large, it can have a huge impact on Earth if the oceans contain salt water (which can cause salt concentrations). In addition, Jupiter's magnetic field from Io can make it easier for a space shuttle to fly in space that would allow us to send probes deep into space. This opens up exciting opportunities for astronomical research, life sciences, planetary physics and Earth Science (even astronomy).

Juno helped solve the mystery of how Saturn came to be. The theory is that a large cloud of ancient gas trapped in space forms the planets we know today.

This discovery is very exciting and is the result of two years of hard work by scientists on Earth, space and NASA who have worked together for over 10 years to discover this kind of natural phenomenon and study Jupiter and Saturn. They hope to do so while increasing our knowledge of these worlds. Their discovery will help us to better understand the origin of the universe that will further strengthen our conviction that our solar system was created by God.

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Credit: Giphy

The latest entry to join the Exoplanet Information Database has been done. Since 2015, astronomers and data collectors have been collecting data on various domains of planetary sciences and systems, such as astronomy, astrophysics, planetary studies, planetary geology, astrobiology and oceanography. These data sources have become widely available since the 1990s after a few decades of dedicated effort. At least 60,000 exoplanet has been found since 1977 and more than 5,000 exoplanet findings have been announced since 1997. Over the years, the number of discovery of exoplanet increased dramatically.

Each year, NASA receives hundreds of thousands of discoveries about the universe and the planets that transcend our solar system. Astronomers have identified more than 90% of the newly discovered planets and have published about 70 papers describing the type of planets that have been discovered since 2003. More information about Exoplanets can be found at https://exoplanets.org/.

Astronomers have a clear understanding of the planets, their birthplace, their structures, and much more. But most people do not know Exoplanets.

The fact that we can now identify so many exoplanets means that we know more than ever before. We also see more planets close to Earth because our solar system is expanding daily. There are billions of planets in our solar system; it is not known exactly how many there are.

In 2007, NASA began publishing a list of planetary objects to reduce their size. An example of a list is the Ephemeral Planet, the largest group of objects on Earth. Now, this division is expanding by 2020, which includes millions of objects, including supernovas, asteroids, comets, comets, Kuiper Belt comets, small planetary systems and asteroids, forming a large part of the smallest galaxy.

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Credit: NASA

The next big thing that will happen in 2025, NASA plans to publish a map of all asteroids in our solar system. These maps will be based on the assumption that our solar system is the only planet in the Milky Way and therefore no other.

By 2025, there will be enough dots and lines to cover the entire galaxy. Many of these objects would be too small to be measured by the starlight. These measurements will be made using technologies developed by researchers at MIT and Cornell Center. Putting down a few numbers, by 2033, we will see a sample of one star people in every 4 stars in the sky. By the end of 2025, we will have 1,700 stars. To put that in perspective, the earth's population consists of only 7,400 people. That leaves us only 2,800 galaxies to explore, our Milky Way galaxy. And it will only get better.

By the end of 2050, there will be 100 billion galaxies of light, making it possible for us to measure the number of planets in our solar system.

This is not a prediction of the future. To “know how many planets we can know,” we need all the scientific advances that have been made so far in order to predict how our solar system will continue to grow and expand rapidly. Only then will we be ready to begin exploring which planet we believe may have that special secret.

If I can say one word what my definition of success is, it would be curiosity. Curiosity will save us. It will remove us from the limits of the laws of gravity and physics. Once we have the opportunity to look at and explain these changes, we will be able to use our ideas to show how they will affect our lives.

We have created the conditions necessary to unravel external mysteries. For millions of years, people have searched and explored, to discover and share and to learn new things. That search for answers to questions such as why the sky darkened is not the only answer. Mankind has not stopped trying. Although our ancestors had to settle down under the right conditions