Upon falling towards a black hole the "front" is pulled more than the "back" causing objects to stretch.
Spaghettification is a term used to describe the process by which an object is stretched and elongated into thin, noodle-like shapes due to tidal forces in a strong gravitational field. This phenomenon commonly occurs near black holes, where the intense gravitational pull causes objects to be stretched as they approach the event horizon.
The black hole will get more massive. Some energy will be radiated away. If you'd like more details, please rephrase your question in a more specific fashion. The Sun is in no danger of encountering a black hole in the foreseeable future, so there's no real rush.
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.
If a rocket were to enter a black hole it would be torn apart by tidal forces before it could even reach the event horizon. After crossing the event horizon it would permanently become part of the black hole's mass.
The term black hole is a misnomer that implies the notion of a hole; there is no hole, so there is no hole foe light to escape into another multidimensional place. A black hole is a spherical volume of immense gravitational attraction. The interface presented towards the outside world, called the event horizon is not really a physical boundary: it's merely the point beyond which not even light can hope to escape the gravitational pull of the black hole.
Spaghettification is a term used to describe the process by which an object is stretched and elongated into thin, noodle-like shapes due to tidal forces in a strong gravitational field. This phenomenon commonly occurs near black holes, where the intense gravitational pull causes objects to be stretched as they approach the event horizon.
The black hole will get more massive. Some energy will be radiated away. If you'd like more details, please rephrase your question in a more specific fashion. The Sun is in no danger of encountering a black hole in the foreseeable future, so there's no real rush.
malleability and tensile strength.
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.
Swampy's Underground Adventures - 2012 Stretched Thin 1-8 was released on: USA: 20 December 2012
If a rocket were to enter a black hole it would be torn apart by tidal forces before it could even reach the event horizon. After crossing the event horizon it would permanently become part of the black hole's mass.
At the entrance to the vagina, it is a thin membrane stretched across the entrance.
The term black hole is a misnomer that implies the notion of a hole; there is no hole, so there is no hole foe light to escape into another multidimensional place. A black hole is a spherical volume of immense gravitational attraction. The interface presented towards the outside world, called the event horizon is not really a physical boundary: it's merely the point beyond which not even light can hope to escape the gravitational pull of the black hole.
No active force can be generated.
Metal is ductile when it is capable of being stretched into a thin wire.
I got a metal rubbish can and pulled the bottom out. then i stretched some cowhide over it. (I live On A farm so it wasnt so hard to get some. try thin leather instead)
ductile, meaning that it can be deformed without breaking and can be stretched into a thin wire shape. This property is the result of the metallic bonds between atoms in the metal, which allow for the movement of atoms without causing structural failure.