The world of Teyvat is also a universe, and the sources of her magic are all proven, combined with the analysis of in-game theories as follows:

Where do we come from in the vast universe? Are there any other Earth-like planets in the universe that have also evolved life? Because of their achievements in exploring these two fundamental questions, three scientists shared the 2019 Nobel Prize in Physics.

Sweden, the West, issued a press release saying that James Peebles from the United States won the award for his cosmology-related research, and Michel Maillor and Didier Queloz from Switzerland won the award for the first discovery of an extrasolar planet, and this year's winners have changed our view of the universe and helped "us understand the evolution of the universe and the place of the Earth in the universe."

The communiqué said that Peebles's insights into cosmology enriched the field of research and became the basis of contemporary cosmology. Maillol and Queloz explored unknown planets in our cosmic neighborhood, and their research pointed to an eternal question: Is there life beyond Earth?

Many scientific pioneers have predicted that there must be many stars in the sky that also have planets that revolve around them. However, the planets are so far away from Earth that the light reflected is too faint for them to be easily seen.

It wasn't until 1995 that Mayor and Queloz announced the first discovery of a planet outside our solar system, based on the theory that stars would have small oscillations due to changes in planetary gravity. The planet orbiting the Sun-like star 51 in the constellation Pegasus about 50 light-years away is named 51b Pegasus and is a gaseous planet similar to Jupiter, the largest planet in the solar system. The results were published in the internationally renowned academic journal Nature. Some believe that the discovery of this planet has brought new hope to mankind in the search for a partner in the universe; Others call Mayor and Queloz "discoverers of the New World", a discovery comparable to Columbus's discovery of the New World.

The discovery of "Pegasus 51b" ignited a "spark" for exoplanet exploration. Thanks to the rapid development of various observation techniques, scientists have discovered more than 4,000 planets in the Milky Way so far. A wide variety of new objects are still being discovered, and their size, shape, and orbit are incredible. They challenge our existing understanding of planetary systems and force scientists to revise theories of planetary origins.

Human beings also have an eternal proposition, which is "where do they come from". It was a group of scientists represented by Peebles who began to lay the foundation in the 60s of the last century that made cosmology a modern science and ushered in a 50-year "golden age".

Peebles continued to refine the theoretical framework he proposed, which ultimately helped shape our basic understanding of the formation and evolution of the universe since the Big Bang.

About 14 billion years ago, the universe was hot and dense at the beginning of the Big Bang. Since then, the universe has expanded and cooled. About 400,000 years after the Big Bang, the universe began to become "transparent" and light was able to travel through it. It was in this early radiation that the secrets of the birth and evolution of the universe were recorded.

Using the theoretical tools and computational methods he created, Peebles successfully "decoded" the "clues" left by the beginning of the universe. According to his theory, it can be deduced that 95% of the universe is mysterious dark matter and dark energy, while only 5% of the ordinary matter we usually observe.

Today, dark matter is considered one of the most challenging topics in the study of the universe. Understanding dark matter is the opportunity to gain insight into the vastness of the universe and its origins. Therefore, scientists around the world have been tirelessly searching for dark matter for a long time, and have launched many related large-scale experimental projects, such as the Alpha Magnetic Spectrometer, the Large Hadron Collider, etc.

China's first dark matter particle detection satellite, Wukong, launched in 2015, is also expected to be high. The Chinese project team recently announced the second batch of scientific results in the American journal Science Advances, and "Wukong" used space experiments to accurately map the energy spectrum of high-energy proton cosmic rays for the first time in the world, and observed a new structure of the energy spectrum, which helps to "capture" dark matter.

Assuming there is no air conditioning, how do we spend our summers? But what's the use of air conditioning on Earth? As the heat released by the stars continues to increase, the universe will get hotter and hotter, and if it is not stopped, it will eventually be heat death, and all the matter will be burned out! If human beings want to exist forever, they must install air conditioning for the universe and make the universe a constant temperature system, and this step should be extremely far away. The immediate priority is to make the planet a planet with the right temperature: most roads are dug into canals, and large water-making equipment is built to fill them with water; Let's take off all the houses, go to the mountains and rocks, and the future human beings will build mountains and seas, and build the earth into a planet of mountains and rivers, and mountains and water are the homes for all things to survive! Houses and roads are just garbage created by human beings, they not only encroach on too much land resources, resulting in the reduction of trees and vegetation, but also serious soil erosion, greenhouse gas emissions are increasing day by day, the earth's living environment is deteriorating day by day, now we have made too many mistakes, the future will be more and more painful, we must repent quickly, human beings have hope and future.

Although this question has no beginning or end and does not explain anything, I still want to force an answer

If the gravitational pull of matter in the universe is strong, a collapse (i.e., the shrinkage of the universe) will occur

If the gravitational pull of matter in the interior of the universe is not too strong, then there will be a heat death

If the gravitational pull of matter in the interior of the universe is just right, it means [DATA EXPUNGED]

According to a recent report by the Physicists Organization Network, European astronomers have studied the universe between 500 million and 1 billion years after the Big Bang with the help of the Hubble Space Telescope, and have found no evidence of the existence of the first generation of stars, the so-called third star family. This latest result suggests that the first stars and galaxies in the early universe were formed much earlier than scientists previously thought.

In modern astronomy, exploring how and when the first stars and galaxies formed remains a major challenge. Previous data from the Planck Space Telescope suggests that stars began to form about 550 million years after the Big Bang. The Hubble Telescope research project, a joint effort between the European Space Agency (ESA) and NASA, will be able to observe the universe 500 million years after the Big Bang.

A European research team led by ESA's Rachana Bhattadecka has been working on the Third Constellation stars, which are made up of primordial material produced by the Big Bang. In the latest study, the team explored the early universe about 500 million to 1 billion years after the Big Bang by studying MACSJ0416 star clusters and their parallel fields with the help of the Hubble Space Telescope. "We have found no evidence of the first generation of stars," she said. ”

This research is part of the Hubble Frontiers initiative. The program, which began in 2012 and ended in 2017, observed six distant clusters of galaxies, yielding the deepest observations to date of the cluster and the galaxies that lie beyond. These galaxies are magnified by gravitational lensing, so galaxies that are 10 to 100 times fainter than previously observed galaxies also "emerge".

Bhattadecka and his team have developed a new technique that can eliminate the light emitted by the bright foreground galaxies that make up these gravitational lenses, allowing them to discover less massive galaxies than previously observed by the Hubble telescope, which were born less than a billion years ago and are the most likely candidates for cosmic reionization. The cosmic reionization period is the period in which the neutral galaxy medium is ionized by the first stars and galaxies.

"These results are far-reaching, as they suggest that the first stars and galaxies were formed much earlier than previously thought, at a point beyond the capabilities of the Hubble Space Telescope, which is scheduled to launch in 2021 and is expected to reveal the secrets of the universe's earliest galaxies," Bhattadecka said.