Roger Penrose contributed significantly to the description of physical processes involved in the formation of black holes from massive stars, and the nature of their singularities (which Hawking subsequently extended into formal theorems). He also developed theories regarding the ability to observe them ("cosmic censorship").
The theory describing black holes is known as general relativity, developed by Albert Einstein. It explains how the massive gravitational force at the core of a black hole warps space and time to create a region from which not even light can escape.
1916, Albert Einstein came up with the theory about Black Hole.
According to current theory, a black hole, if it exists, begins its life full,and nothing that falls into it ever leaves it.
Roger Penrose significantly influenced Stephen Hawking through their collaborative work on black hole physics and the nature of singularities. Penrose's groundbreaking theorems, particularly his work on gravitational collapse and singularity theorems, provided a mathematical foundation that Hawking built upon in his own research. Their partnership, notably in the development of the Penrose-Hawking singularity theorems, shaped modern cosmology and deepened our understanding of the universe's origins. This intellectual exchange not only advanced theoretical physics but also fostered a lasting friendship between the two scientists.
UK physicist and cosmologist Dr. Stephen Hawking is not known to have invented anything. He is a physicist at the Centre for Theoretical Cosmology in Cambridge, England. However, he and physicist Roger Penrose provided much of the mathematical support for the existence of black holes, and the means by which they might form and dissipate. The theoretical loss of mass by a black hole is referred to as Hawking radiation.
A Penrose diagram is a way to visualize the spacetime geometry of a black hole. It helps us understand the structure of spacetime near a black hole, including the event horizon and singularity. By using a Penrose diagram, scientists can study the causal relationships and paths of objects near a black hole, providing insights into the nature of black holes and their effects on spacetime.
The Penrose diagram is important for understanding the structure of a Schwarzschild black hole because it provides a way to visualize the entire spacetime geometry of the black hole in a simplified and compact form. It helps to illustrate key features such as the event horizon, singularity, and the paths of light and particles inside the black hole. This diagram aids in studying the causal structure and properties of the black hole, making it easier to analyze and interpret complex spacetime phenomena.
In theory, yes, a black hole could suck up the sun.
A black hole? well scientist are not sure. Black holes is a theory, not proving to be true. But there could be.
The theory describing black holes is known as general relativity, developed by Albert Einstein. It explains how the massive gravitational force at the core of a black hole warps space and time to create a region from which not even light can escape.
people now know more about the black hole.
In Theory, yes
The possibility of black holes was known before Stephen Hawking. Stephen Hawking's contribution to the theory was mainly that a black hole would gradually evaporate, due to certain quantum effects that occur close to the black hole's event horizon.
There is a theory that tells that when you fall in a black hole, you are not destroyed but you are "teleported" to a white hole. The wormhole is a inter-dimensional tunnel that connects a black hole to a white hole.
1916, Albert Einstein came up with the theory about Black Hole.
stellar black holes, no none at allhawking black holes, no none at allsuper massive black holes at galactic centers, no none at alluniversal black holes, yes we are an example, if the entire universe is indeed inside an ultra massive black hole as would be suggested by the combination of big bang theory and black hole theory
The black hole is unique because it is the only force in the unniverse to rip space time and break through the theory of relativity