“Black Hole a displacement Hole of Patel’s String”
Although S. Hawking has presented his theory on what happens when an object enters a black hole, in which we find that when an object enters a black hole, it comes out of the black hole in the form of Hawking radiation.
Formation of A Black hole
If you have read my other articles, I have described the nature of the universe there (Patel’s String). I have said in it that strings are present everywhere in the universe. Just like a box filled with balls. When an object is created, it replaces those strings. As we know, space-time is also made up of these strings, but these strings are not in their mass form, they are in their energy form. So, when an object with a large mass is formed, it replaces the strings. This creates a curve in space-time.
Thus, there are 3 possibilities –
It is possible that the mass replaced by the big object may be 1.greater than 2. Less than or 3. Equal to the mass of the replaced strings. As we know that if an object is given more energy than its elastic limit then it will never return to its original state. Similarly if the mass of the object becomes greater than the mass of the strings replaced by it then it crosses the elastic energy limit and when the body with that energy or mass is no longer at that place then due to the absence of strings a hole is formed there which we call a black hole.
Patel energy limit โ Patel energy limit refers to the condition when the mass of the object is equal to the mass of the strings displaced by it for read more about Patel energy limit (click here)
Why Supernova during black hole formation
So the answer is that when a supernova occurs, the object collapses and becomes very small and crosses the “Patel energy limit”. And a black hole is formed only when the object leaves that mass state. A massive explosion takes place in the supernova, due to which the strings remain in their old state and a string hole is formed, which is called a black hole.
So, if a black hole is formed even in COSMOS, then more energy would have been given off than the energy of all the strings located in the same space in which we assume the black hole to be, which is usually seen in supernova explosions.
So if we want to study about a black hole, then first we have to know the place where the black hole is formed, how many strings are present in it, from this we can calculate how much energy will be required to form that black hole. how dense the mass will be to form a black hole after the supernova.
