Given that tides are caused by gravity, and that black holes are a major SOURCE of gravity, it isn't clear that black holes would be affected at all by other gravitational sources. Of course, we can know nothing at all about whatever is inside the event horizon of a black hole.
There is a force that unites the tides, planets and black holes. Tides are generally thought of as the rise and fall of the level of the oceans due to the gravitational effects of the moon and the sun. Planets have gravity proportional to their masses, and black holes are points of massive gravity. Gravity or its effects unite the three things listed.
No, the moon affects the tides, but the tides do not affect the moon.
Black holes affect humans in 2 ways: 1. By stretching them to the width of one atom (spaghettification) 2. By converting them into energy (mostly in the form of X-rays)
Black holes are outside the confines of both the Earth and the Solar System, the passing of our year does not affect when they form.
The sport of wind surfing does not affect tides.
Nope.. Light always travels at the same speed. However, black holes do affect the trajectory of the photons, hense diverting the direction of the light.
The moon They dont
should do, doesn't that produce spring tides
stellar black holes were stars (these are large)primordial black holes were pieces of the big bang (these are microscopic)
Gravitational pull of the sun and the moon may affect the tides. If you notice carefully the tides will be high during a full moon day.
Yes, black holes can have magnetic fields. These magnetic fields can affect the surrounding environment by influencing the behavior of matter and radiation near the black hole. The magnetic fields can cause particles to spiral around the black hole, emit radiation, and create powerful jets of material that shoot out into space.
The presence of water does not directly affect the formation or behavior of a black hole. Black holes are formed from the collapse of massive stars and are characterized by their immense gravitational pull, which can even pull in light. Water, being a common substance on Earth, does not have a significant impact on the formation or behavior of black holes in space.