There have been many incredible and important discoveries and records made throughout history, and those in the 20th century is no exception. While there have been many important contributions to advance science in the 20th century, the most important contributions have come from Stephen Hawking through his discovery of the idea of the Theory of Everything, his use of the quantum theory, and the creation of Hawking Radiation.
Hawking contributed greatly to the scientific field by coming up with the idea of a “theory of everything”. By creating this idea, Hawking allowed scientists all around the world to discover new theories and mechanics used in the universe and altered the way people viewed the universe as a whole. In his book, appropriately …show more content…
He furthered Einstein’s ideas and also allowed mathematics and science to work together. He combined two theories (the quantum theory and special relativity) and used them together for the first time in history. This would later bring on new discoveries and accomplishments, thus being impactful to the entire world. Basically, due to Hawking's idea of black holes, physics and mathematics were more than ever knitted together. His use of the laws of thermodynamics, quantum physics, and general relativity (which had never been used together ever before) demonstrated that. Even after Einstein’s use of relativity, Hawking created a idea that would entirely create a new idea and view of black holes (The Intimate Relation Between Mathematics and Physics). The United States and its venture of space exploration and understanding was forever changed. Furthermore, “As Hawking draws from the original creator of the quantum theory, the forces between matter particles are all supposed to be carried by other particles. Then, the particle emits another force, changing the velocity of the matter particle, in a cannonball way. The net result of the emission and absorption remains constant” A particle exchange also happens, Hawking states, and forces "arise from the exchange of force-carrying particles" With his further discovery and involvement with the quantum theory, Hawking …show more content…
Hawking Radiation could explain black holes; therefore they were important to the understanding of the universe itself. In the 1960's, Stephen Hawking discovered that “black holes radiated heat, revealing that the [black holes] had an important key to the research of the "evolution of the universe" (“Stephen Hawking Makes Pioneering Discoveries in Gravitational Field Theory”). Because of Hawking’s discovery of radiation in black holes, they would turn out to correlate directly to the universe. If that were the case, then He concluded that, basically, if the universe prior to the big bang was analogous to a black hole, it would one day become like a black hole and explode. Therefore, the big bang could be explained by the laws of mathematics and science (Magrass, 1714). Linking back to the Theory of Everything, Hawking postulated that black holes could be the key to the universe. Discovering Hawking Radiation proved that postulate to be a fact. Furthermore, “By linking the disparate fields of gravitational science, quantum mechanics and thermodynamics, Hawking radiation has become a crucial concept in theoretical physics over the past quarter of a century” (Dr Hawking's bright idea; Mimicking Black holes). Theoretical physics were rarely used in science due to lack of understanding. Hawking Radiation, however, allowed theoretical physics to be applied in space more often, and to be used more often. This
Hawking contributed greatly to the scientific field by coming up with the idea of a “theory of everything”. By creating this idea, Hawking allowed scientists all around the world to discover new theories and mechanics used in the universe and altered the way people viewed the universe as a whole. In his book, appropriately …show more content…
He furthered Einstein’s ideas and also allowed mathematics and science to work together. He combined two theories (the quantum theory and special relativity) and used them together for the first time in history. This would later bring on new discoveries and accomplishments, thus being impactful to the entire world. Basically, due to Hawking's idea of black holes, physics and mathematics were more than ever knitted together. His use of the laws of thermodynamics, quantum physics, and general relativity (which had never been used together ever before) demonstrated that. Even after Einstein’s use of relativity, Hawking created a idea that would entirely create a new idea and view of black holes (The Intimate Relation Between Mathematics and Physics). The United States and its venture of space exploration and understanding was forever changed. Furthermore, “As Hawking draws from the original creator of the quantum theory, the forces between matter particles are all supposed to be carried by other particles. Then, the particle emits another force, changing the velocity of the matter particle, in a cannonball way. The net result of the emission and absorption remains constant” A particle exchange also happens, Hawking states, and forces "arise from the exchange of force-carrying particles" With his further discovery and involvement with the quantum theory, Hawking …show more content…
Hawking Radiation could explain black holes; therefore they were important to the understanding of the universe itself. In the 1960's, Stephen Hawking discovered that “black holes radiated heat, revealing that the [black holes] had an important key to the research of the "evolution of the universe" (“Stephen Hawking Makes Pioneering Discoveries in Gravitational Field Theory”). Because of Hawking’s discovery of radiation in black holes, they would turn out to correlate directly to the universe. If that were the case, then He concluded that, basically, if the universe prior to the big bang was analogous to a black hole, it would one day become like a black hole and explode. Therefore, the big bang could be explained by the laws of mathematics and science (Magrass, 1714). Linking back to the Theory of Everything, Hawking postulated that black holes could be the key to the universe. Discovering Hawking Radiation proved that postulate to be a fact. Furthermore, “By linking the disparate fields of gravitational science, quantum mechanics and thermodynamics, Hawking radiation has become a crucial concept in theoretical physics over the past quarter of a century” (Dr Hawking's bright idea; Mimicking Black holes). Theoretical physics were rarely used in science due to lack of understanding. Hawking Radiation, however, allowed theoretical physics to be applied in space more often, and to be used more often. This