It’s important to note that this is a model. In reality, neutron stars emit a lot of X-rays and gamma rays. In fact, they emit more invisible light than visible light. However, we can still see them. You are correct that gravity curves the trajectory of light, but the light is still able to escape, because the escape velocity of a neutron star is not equal to the speed of light.
Great question! You would die because of: -Spaghettification: Neutron stars have an extremely strong gravitational force that would stretch and crush your body into pieces. -Radiation: Neutron stars emit extreme amounts of X-rays and gamma rays, which would fry your body. -Rotation: Only if we’re talking about pulsars, they can rotate 400-700 times per second, creating lethal conditions. -Temperature: The surface temperature is around 10 million K (approximately 9,999,726.85 °C or 17,999,540.33 °F). -Strong Magnetic Fields: Their magnetic fields are powerful enough to disrupt atomic structures. In reality, you wouldn’t be able to reach the surface thanks to the extreme radiation and gravity.
@klraiden This is a very hard question, and honestly, I don’t know if I’m able to answer it, but I will try. First of all, you need to understand how we see things. Everything around us is visible thanks to light, such as sunlight, which hits objects, bounces off them and reaches our eyes. This process allows us to see the world around us. However, inside a black hole, the situation is different. Inside of black hole, there are no materials or particles for light to bounce off (only elementary particles), so we can't see anything. More importantly: The gravity bends the trajectory of light, pulling it toward the singularity. Instead of traveling in a straight line, the light is trapped and cannot escape. Because of this, you wouldn’t be able to see the light, as it would never be able to reach your eyes.
Ending had me shitting my pants. Great video.
Ok wow ?!?! So much under estimated
Amazing
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If the gravity on it is so strong that its pulling light, how can we see it shining?
It’s important to note that this is a model. In reality, neutron stars emit a lot of X-rays and gamma rays. In fact, they emit more invisible light than visible light. However, we can still see them. You are correct that gravity curves the trajectory of light, but the light is still able to escape, because the escape velocity of a neutron star is not equal to the speed of light.
@@lu5445 Btw the escape velocity on a surface of neutron star is around 0,5c (half of speed of light).
Quick question🎉 if I fell to burearon star would I instantly die or what would I die from ?)
Great question!
You would die because of:
-Spaghettification: Neutron stars have an extremely strong gravitational force that would stretch and crush your body into pieces.
-Radiation: Neutron stars emit extreme amounts of X-rays and gamma rays, which would fry your body.
-Rotation: Only if we’re talking about pulsars, they can rotate 400-700 times per second, creating lethal conditions.
-Temperature: The surface temperature is around 10 million K (approximately 9,999,726.85 °C or 17,999,540.33 °F).
-Strong Magnetic Fields: Their magnetic fields are powerful enough to disrupt atomic structures.
In reality, you wouldn’t be able to reach the surface thanks to the extreme radiation and gravity.
Wow that’s a lot more stuff than I knew I appreciate it🎉🎉
@ I have very theiretical question if you turned on a flashlight in a black hole what would happen to the light ?
@klraiden This is a very hard question, and honestly, I don’t know if I’m able to answer it, but I will try.
First of all, you need to understand how we see things. Everything around us is visible thanks to light, such as sunlight, which hits objects, bounces off them and reaches our eyes. This process allows us to see the world around us. However, inside a black hole, the situation is different. Inside of black hole, there are no materials or particles for light to bounce off (only elementary particles), so we can't see anything.
More importantly:
The gravity bends the trajectory of light, pulling it toward the singularity. Instead of traveling in a straight line, the light is trapped and cannot escape.
Because of this, you wouldn’t be able to see the light, as it would never be able to reach your eyes.
😢🤯