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In particle physics, the suffix β-onβ is often used to designate a particle or entity as being a type of boson. Bosons are particles that obey Bose-Einstein statistics and carry fundamental forces, such as photons for electromagnetism. Examples include gluons, which mediate the strong nuclear force, and gravitons, which are hypothetical particles that could mediate gravity.
There are a variety of common applications of physics. Some of these include mechanical design, electricity, as well as magnetism.
PHYSICS SOME PART OF SOME CHPTR. CHEM MATHS APPLICATIONS OF INTEGRA&DERIVATIVE PHYSICS SOME PART OF SOME CHPTR. CHEM MATHS APPLICATIONS OF INTEGRA&DERIVATIVE
Nuclear Physics is a field of physics, yes. It involves interactions between atomic nuclei. Nuclear fission, nuclear fusion, nuclear decay (though in some ways that is more particle physics).
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the god particle ( or Higgs Particle) was an elusive quantum physics particle that remained unfounded for a number of years until July, 2012. the God Particle reinstates many physical theories concerning mass. previous the the particle find it was unclear why some particles appeared to have little to no mass in comparison to other particles of similar qualities that had 'massive' mass. Peter Higgs first described such a particle as the Higgs Particle / God Particle about 40 years ago yet it remained unfounded. the find answers many questions and is significantly important in explaining many aspects of quantum physics
All nuclear decay has some kind of particle or particles associated with it. Even the metastable decay of 4399Tcm, a gamma at 142.7 Kev, is considered to be a particle emission, because a gamma is a photon, and a photon is an elementary particle, per our understanding of modern quantum mechanics and particle physics, even though it has no mass at rest state.
William Valentine Mayneord has written: 'The physics of x-ray therapy' -- subject(s): Radiotherapy, X-rays 'Some applications of nuclear physics to medicine'
In the broadest sense any material is special. Polonium is highly radioactive, rare, dangerous but with some interesting applications.
A K-meson (or kaon) is a category of extremely short-lived elementary particles. Studying them has provided some useful information about particle physics in general.
interesting question and a little hard to understand, but I'll give you some different views and , in chemistry heat will increase the speed of a reaction by making particle vibrate faster in physics heat can increase friction, which would indirectly affect speed, more clarification on the question would help but i hope this helps
In physics, fission is the process in which a heavy, unstable element is split into two lighter elements by bombarding it with a small particle. Some of the energy that was binding the element's nucleus together is then released, along with a third, tiny particle that is released as well. The tiny particle then collides with another of the heavy elements, causing it to split as well, emitting another particle which collides with another heavy element, and so on. This is the chain reaction that allows for sustainable nuclear power generation, in which the reaction is controlled, or the detonation of nuclear weapons, in which the reaction is uncontrolled.