The hottest crime in the universe
Scientists believe that the hottest objects in the universe are stellar cores, especially in the final stages of their lives. The core of a massive star during the supernova phase can reach temperatures of about 100 billion Kelvin (100 billion degrees Celsius or 180 billion degrees Fahrenheit).
However, hotter conditions have been artificially created in laboratory environments. For example, experiments conducted at the Large Hadron Collider (LHC) have produced quark-gluon plasma, which is believed to be a state of matter that existed right after the Big Bang.
The quark-gluon plasma created in these experiments has reached temperatures exceeding 5 trillion Kelvin (5 trillion degrees Celsius or 9 trillion degrees Fahrenheit). Nevertheless, these temperatures are still much lower than the theoretical maximum temperature, known as the Planck temperature, where our current understanding of physics is challenged.
The Planck temperature is approximately 32^10 × 1.416 Kelvin (32^10 × 1.416 degrees Celsius or 32^10 × 2.543 degrees Fahrenheit). At temperatures close to the Planck temperature, our current understanding of physics, based on general relativity and quantum mechanics, is no longer applicable. Therefore, to understand the behavior of matter and energy at these extreme temperatures, we need new theories such as quantum gravity or string theory.
So
it should be noted that the hottest crimes in the cosmos are the cores of stars, especially when they are dying. Scientists have been able to reach the hottest crimes in the cosmos by studying and observing the sky, and they have also been able to observe and discover many other wonders of the sky. If you are interested in observing the sky and discovering its wonders, you can explore these wonders by purchasing a telescope. Purchasing a telescope is possible at the Night Sky Nature Institute website with the best price and quality.