Because they bend the fabric of space time (general realitivity) to curve the light into the blackhole, and the gravitational force within the event horizon is so great that the escape velocity is greater then the speed of light.
No, black holes do not have a smell because they are regions of space with such strong gravitational pulls that not even light can escape from them. Smell requires the presence of particles to be detected by our nose, which is not applicable to black holes.
The largest stars end their lives as black holes. These are regions in space with incredibly strong gravitational forces that can trap even light.
Electronegativity is a measure of an atom's ability to attract electrons in a chemical bond. In the context of black holes, electronegativity is not directly connected. Black holes are massive objects with incredibly strong gravitational forces that can trap even light due to their immense densities, but they do not interact with atoms on the same scale as electronegativity.
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 power or force exerted by black holes is all relative to the size of the black hole. Because black holes have many different sizes, they exert different amounts of forces for each black hole. However, I'm assuming that you are talking about black holes like the super massive black hole located in the center of our galaxy. These kinds of black holes are huge and are so powerful, they can trap light which is traveling 286,000 miles per second. So if you're talking about the big galactic black holes seen in the movies, the answer is the black hole is amazingly powerful and can trap anything that goes past its event horizon (point of no return).
No, black holes do not have a smell because they are regions of space with such strong gravitational pulls that not even light can escape from them. Smell requires the presence of particles to be detected by our nose, which is not applicable to black holes.
The largest stars end their lives as black holes. These are regions in space with incredibly strong gravitational forces that can trap even light.
Black holes and rainbows are both phenomena related to light and gravity, but they are very different. Black holes are extremely dense objects with strong gravitational pull that can trap light, while rainbows are caused by the refraction and reflection of light in water droplets. In short, the relationship between a black hole and a rainbow is that they both involve light and gravity, but they are fundamentally distinct in nature.
Bursts of light from black holes are the result of the accretion (or "consumption") of matter by black holes. Quasars are an example of this.
Electronegativity is a measure of an atom's ability to attract electrons in a chemical bond. In the context of black holes, electronegativity is not directly connected. Black holes are massive objects with incredibly strong gravitational forces that can trap even light due to their immense densities, but they do not interact with atoms on the same scale as electronegativity.
Black dwarfs of black holes.
Black holes are considered one of the most dangerous objects in the universe due to their intense gravitational pull that can trap even light. They can devour neighboring celestial bodies and release powerful jets of energy that can destroy anything in their path.
No, black holes do not move at the speed of light. While they can exert a strong gravitational pull, their movement is not necessarily tied to the speed of light.
black holes have such great gravity that nothing, not even light can escape them. That is why they were named "black holes".
While black holes give off radio waves, the fact that no light can escape, or be reflected off of, black holes makes them completely invisible to any regular light-capturing device.
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 power or force exerted by black holes is all relative to the size of the black hole. Because black holes have many different sizes, they exert different amounts of forces for each black hole. However, I'm assuming that you are talking about black holes like the super massive black hole located in the center of our galaxy. These kinds of black holes are huge and are so powerful, they can trap light which is traveling 286,000 miles per second. So if you're talking about the big galactic black holes seen in the movies, the answer is the black hole is amazingly powerful and can trap anything that goes past its event horizon (point of no return).