no matter how tragic The ingestion of a parent star is a simultaneous global event. But it doesn’t end with dooм. A team of astrophysicists used computer simulations to rule out that planets can’t just be above Earth when their star eats it. But they can also eliminate future effects.
Models of the formation of the haʋe planetary system show that many planets form. Stars often end up eating their host star. It’s just a matter of orƄital dynaмics. Random interactions between newly forming planets and protoplanetary disks surrounding young stars can send planets into chaotic trajectories. Some of those trajectories ended up causing the planets to eject from the system altogether. while other trajectories send it into the stars
Another chance to devour near the end of the star’s lifespan as it occupies the region of a red giant. This also affects the gravitational dynamics of the system. and can send massive planets into the atmosphere of their parent star
But surprisingly, the world doesn’t always die when this happens. Astronomers discover a strange system many throughout the galaxy, which indicates that the planets Beyond interstellar journeys, for example, there are white dwarf or giant planet systems that are too close to each other for the planets to form naturally. There are stars with surprising amounts of heavier metals in the atmosphere. This is a sign that a rocky object is coming in. And there are many stars that spin too fast. Their rotation rates were enlarged to the point of colliding planets.
All of these systems could be the result of a planet-to-planet engulfment that results in further decay of the star. But can a planet exist beyond the star’s intense atmosphere? A team of astrophysicists aims to tackle that question by using computer simulations of the star’s interior. They tracked the evolution and fate of the different types of planets that could fall. In the simulation they also studied planets of ʋarious мasses and brown dwarfs. Their simulations support the idea that planets can devour them.
For example, in some cases, planets can exist for thousands of years. Orbit around the center of a star within its atmosphere. This oral action can throw objects off the star. This causes the outer edge of the atmosphere to thin. In other cases, the exchange of orƄital energy increases the temperature of the star’s atmosphere. making it much brighter than normal
But to engulf the planet itself, it must be at least as large as Jupiter. Small planets like Earth cannot stay in those conditions for long. But if the planet is large enough and depends on precise emissions, Planets can transcend the transit of stars. and actually accelerates the star’s ejection so that it quickly ends its life. Free the planet from its deadly obstacles.
