The result is a clip that offers a disturbing and almost realistic first-person perspective, showing two possible scenarios that challenge our understanding of space and gravity.
Astrophysicist Jeremy Schnittman led this effort using the power of NASA’s Climate Simulation Center’s Discover supercomputer. These simulations generated enormous amounts of data, approximately 10 terabytes, that would have required more than ten years to process on a conventional computer. This work provides a unique and captivating glimpse of what it might be like to confront the formidable force of a black hole.
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NASA scientists ran simulations to explore what would happen if a human were trapped by a black hole.
What would happen if you were swallowed by a black hole?
This scenario, created for a black hole located in the center of the Milky Way and with a mass 4.3 million times that of our Sun, transports us to a nightmare in deep space.
The video begins with a first-person camera, located at a distance of 640 million kilometers from the black hole, advancing inexorably towards its terrible gravitational pull. As the victim approaches, the accretion disk and the internal structure of the black hole become clearer, before distorting and coalescing in a frenetic spiral.
In this virtual journey, the simulation shows two orbits around the black hole before the unfortunate astronaut is finally devoured by the relentless force of gravity. This hypnotic and disturbing journey lasted just 12.8 seconds, offering a shocking insight into the nature of these cosmic phenomena.
Embed – 360 Video: NASA Simulation Plunges Into a Black Hole
How do black holes originate?
Black holes remain one of the universe’s most intriguing mysteries, challenging our understanding of fundamental physical laws. According to the Xataka site, these enigmatic cosmic phenomena originate from the gravitational collapse of massive stars at the end of their life cycles. In this process, the star dies and its core collapses under its own gravity, forming a point of infinite density known as a singularity.
One of the most fascinating characteristics of black holes is their immense density, which compresses matter into a space of extraordinarily small dimensions. This makes them true devourers of light and matter, where the laws of conventional physics seem to stop making sense. In addition, there are two main types of black holes: “stellar” ones, with masses comparable to that of the Sun and radii of tens or hundreds of kilometers, and “supermassive” ones, which can have masses millions or even billions of times greater. than that of our Sun and are found in the center of galaxies.
