Yes. Anything with mass has gravity and thus tidal forces. Tidal forces are a consequence of the fact that the strength of gravity from an object depends on the distance from its center of mass. For example, since your feet are closer to Earth's center than your head is, they experience a stronger gravitational pull than your head does. However since that difference is tiny compared with Earth's radius, the tidal force you experience is much too small to be felt. With a black hole, however, you an get much closer to the center of mass than you can with any other object of similar mass. Tidal forces near a stellar mass black hole are enormous.
The larger the black hole, the weaker the tidal forces experienced by an object near its event horizon. Therefore, the black hole with the weakest tidal forces would be the most massive and least compact one.
mostley gravitational forces.
Black holes destroy planets or stars by exerting a powerful gravitational pull, which can rip them apart through a process known as spaghettification. Additionally, the intense tidal forces near a black hole can also strip away the outer layers of a star or planet, ultimately consuming them.
Black holes are round due to the intense gravitational forces pulling matter towards the center. This gravity acts equally in all directions, resulting in a spherical shape. Any irregularities in shape would be quickly smoothed out by the immense gravitational forces at play.
Being pulled into a black hole would result in a process known as spaghettification, where the gravitational forces would stretch and compress your body into a long, thin shape like noodles. The intense tidal forces near the black hole would ultimately tear you apart into atoms as you approach the singularity at the center of the black hole.
The larger the black hole, the weaker the tidal forces experienced by an object near its event horizon. Therefore, the black hole with the weakest tidal forces would be the most massive and least compact one.
mostley gravitational forces.
Black holes destroy planets or stars by exerting a powerful gravitational pull, which can rip them apart through a process known as spaghettification. Additionally, the intense tidal forces near a black hole can also strip away the outer layers of a star or planet, ultimately consuming them.
The existence of black holes is an outgrowth or prediction of General Relativity, which was Einstein's theory of gravitation. The dominant force forming black holes is the force of gravity, a universal attraction between mass.
Black holes are round due to the intense gravitational forces pulling matter towards the center. This gravity acts equally in all directions, resulting in a spherical shape. Any irregularities in shape would be quickly smoothed out by the immense gravitational forces at play.
Being pulled into a black hole would result in a process known as spaghettification, where the gravitational forces would stretch and compress your body into a long, thin shape like noodles. The intense tidal forces near the black hole would ultimately tear you apart into atoms as you approach the singularity at the center of the black hole.
We do not know of any planets that have been destroyed by a black hole, but it probably has happened. Because of the vast distances in space and the fact that neither planets nor black holes emit light, both are hard to detect.
the combined forces of the sun and the moon on Earth produces tidal ranges.
No, it is not possible to survive being sucked into a black hole due to the extreme gravitational forces and intense tidal forces that would tear apart anything that gets too close.
No, you'd die from tidal forces and ionizing radiation long before you crossed the event horizon and entered the black hole itself.
Spaghettification is a term that describes the extreme tidal forces experienced by objects falling into a black hole. These forces can stretch and elongate objects, like spaghetti noodles, as they get closer to the black hole due to the intense gravitational pull. This phenomenon occurs because the gravitational field of the black hole is so strong that it creates a large difference in gravitational force on different parts of an object.
Phobos and Deimos are small moons of Mars, and consequently the tidal forces are extremely weak. Venus and Mercury have no moons, but are still subject to the tidal forces of the sun, and in both cases these forces are considerably larger than they are on Earth (solar tidal forces on the Earth noticeably affect sea levels). It's also worth noting that tidal forces affect the entire planet (think of a tennis ball being squeezed - in this case the squeezing is caused by the gravitational attraction of the sun).