Thanks to astronomers and computer scientists working with the Event Horizon Telescope (EHT), a network of eight linked telescopes, humanity was finally able to visualize these "infinitesimal dots." Although Einstein wasn’t alive to see evidence of black holes-the result of real singularities about which he remained doubtful-his theory of relativity made their discovery possible. Make sure that your hypothesis can be tested and that it can be used to explain certain phenomena related to black holes. You can formulate a working hypothesis, based on previous research. The black hole “teaches us that space can be crumpled like a piece of paper into an infinitesimal dot, that time can be extinguished like a blown-out flame, and that the laws of physics that we regard as ‘sacred,’ as immutable, are anything but,” Wheeler wrote in his 1999 autobiography. A scientific theory is not just a 'hunch', it is backed by many observations and widely accepted as valid.
Wheeler during a conference in New York to describe the grim fate of a massive star after it runs out of fuel and collapses in on itself. Mark Garlick/Science Photo Library/Getty ImagesĪnd it wasn’t until 1967, 12 years after Einstein’s death in 1955, that these astrophysical singularities became known as “black holes”-a term coined by American physicist John A.
In this image, it can only be seen by the surrounding materials being pulled in. Nothing can escape its gravitational pull, not even light, which make them utterly dark and practically invisible. It stayed that way until the 1960s when British theoretical physicists Stephen Hawking and Roger Penrose proved that, far from being rare, singularities were a part of the cosmic ecosystem, and are a part of the natural evolution of massive stars after they run out of fuel and die.Īn artist's rendition of a black hole, which is usually a collapsed star. Chandrasekhar had bridged the gap between mathematical curiosity and a scientific possibility, seeding the theory behind the formation of a real singularity with extreme consequences for the fabric of space-time.Įven with Chandrasekhar’s contributions toward the modern understanding of the nature of black holes, astrophysical singularities were assumed to be, at best, extremely rare. That was until 1935, when Indian astrophysicist Subrahmanyan Chandrasekhar realized that, should a massive star run out of fuel, the sheer gravitational pressure of that mass would be concentrated to a point, causing space-time to collapse in on itself. Though this was an interesting concept, there was no known mechanism that could create a singularity in nature, so the idea was largely overlooked. Known physics breaks down beyond the event horizon and, as no information can escape, we can have no experience as to what lies inside.
The point of no return, a spherical region surrounding the singularity, would become known as the “event horizon.” Schwarzschild, however, persisted until his death in 1916, realizing that an astrophysical singularity would warp space-time so severely that even light would not be fast enough to get out of the space-time hole that the singularity would create. What Role Did Women Play in Ancient Rome?