Since I LOVE physics, astronomy, genes, chemistry, and science in general. I especially like quantum physics. However, I'm just 12 years old and I go to this separate school every Saturday and ask my Algebra 2 teacher about quantum physics since she is a high school. I ask her about the M-theory, wave-functions, super-string theory, gravitons, and others. Sometimes she clears things up for me. Apart from that, I read, read, and read. Read. I took physics class for my age at this one summer thing and is was SO SO SO BORING. The stuff I'm reading is college level quantum physics, so unless you are college age i suggest you read, read, and read some more. Hope this helps.
1921--Nobel Prize in Physics "for his services to theoretical physics and especially for his discovery of the law of the photoelectric effect."
Stephen Hawking studied theoretical physics, particularly in the fields of cosmology and quantum gravity. He made significant contributions to our understanding of black holes and the origins of the universe. His work focused on unifying the theories of general relativity and quantum mechanics.
Isaac Newton understood mathematics , theoretical physics and experimental physics.
Stephen Hawking's main area of work was theoretical physics and cosmology, particularly in the study of black holes, the origins of the universe, and the nature of space and time. His contributions to the fields of physics and cosmology have had a profound impact on our understanding of the universe.
Stephen Hawking was awarded the Wolf Prize in Physics in 1988 for his significant contributions to the field of theoretical physics, particularly in the study of black holes and the nature of the universe. His groundbreaking work on gravitational singularity theorems and the concept of Hawking radiation were highly influential in shaping our understanding of the cosmos.
To become a theoretical physicist, you typically need to earn a Ph.D. in theoretical physics or a related field. This involves rigorous study of physics principles, mathematics, and research in theoretical physics. It's also helpful to gain research experience through internships or assistantships, and to stay updated on advancements in the field.
Pure physics typically refers to the study of fundamental principles and phenomena in physics, encompassing both experimental and theoretical aspects. Theoretical physics, on the other hand, specifically focuses on developing mathematical models and theoretical explanations to understand and predict physical phenomena. So, while they overlap, theoretical physics is a distinct subfield within the broader umbrella of pure physics.
As of now, string theory has not been replaced by any other theory in the field of theoretical physics. It remains a prominent and actively researched area of study.
Progress of Theoretical Physics was created in 1946.
String theory seeks to unite quantum physics with the theory of general relativity in the field of theoretical physics.
Landau Institute for Theoretical Physics was created in 1965.
Perimeter Institute for Theoretical Physics was created in 1999.
International Journal of Theoretical Physics was created in 1968.
Lubos Motl's latest research contribution in theoretical physics involves advancements in string theory and quantum gravity, particularly in the study of black holes and their properties.
Albert Einstein studied physics, specifically theoretical physics. His work revolutionized our understanding of gravity, space, and time, most famously with his theory of relativity.
In short Pure physics is the theoretical knowledge of concepts of physics, while applied physics is the knowledge of techniques that help to apply this theoretical knowledge to practical problems.
Anti de Sitter space is a concept in theoretical physics that has key properties such as negative curvature and a boundary at infinity. It is used in various applications, including the study of holography and string theory.