emissions spectrum?? do more research to conclude
Radiation physics and solid state physics.
Rad Physics is physics applied to radiation
Blackbody radiation refers to the electromagnetic radiation emitted by a perfect absorber and emitter of radiation, known as a blackbody. Examples of blackbody radiation include the radiation emitted by stars, such as the Sun, and the thermal radiation emitted by objects at high temperatures, like a heated metal rod. In physics, blackbody radiation is significant because it helped to develop the understanding of quantum mechanics and the concept of energy quantization. The study of blackbody radiation also led to the development of Planck's law, which describes the spectral distribution of radiation emitted by a blackbody at a given temperature. This law played a crucial role in the development of modern physics and the theory of quantum mechanics.
The Nobel Prize in Physics 1926 was awarded to Jean Baptiste Perrin for his work on the discontinuous structure of matter, and especially for his discovery of sedimentation equilibrium.
The Stephen Hawking equation, also known as the Hawking radiation formula, is significant in theoretical physics because it describes how black holes can emit radiation and eventually evaporate. This groundbreaking discovery challenged previous understandings of black holes and contributed to the development of quantum gravity theories.
C. R. Emigh has written: 'Radiation and particle physics' -- subject(s): Particles (Nuclear physics), Radiation
mathematics and physics
Nuclear radiation is not affected at all, but radiation by Electromagnetic Radiation is. This is a straight Physics topic, not Nuclear Energy.
Hawking's equation, also known as the Hawking radiation formula, is significant in theoretical physics because it describes how black holes can emit radiation and eventually evaporate. This groundbreaking discovery by physicist Stephen Hawking challenged previous understandings of black holes and contributed to the development of quantum mechanics in the study of gravity.
James E. Martin has written: 'Physics for radiation protection' -- subject(s): Medical physics, Radiation, Safety measures
A. Edward Profio has written: 'Experimental reactor physics' -- subject(s): Experiments, Measurement, Neutrons, Nuclear physics, Nuclear reactors, Radiation 'Radiation shielding and dosimetry' -- subject(s): Dosage, Medical Radiology, Radiation, Radiation dosimetry, Safety measures, Shielding (Radiation)
In physics and astronomy, a star is a huge globe of plasma that emits its own radiation.