Beta particle symbols: e- or β- or B- (electrons) or e+ or β+ or B+ (positrons). If the - or + sign is omitted, assume that the beta particles are electrons.
The Greek beta character is usually preferred, but a B is acceptable if Greek fonts are not available.
( o )( o )
This particle is a neutron:neutron-----------proton + electron + neutrino
Two particles: muon and muon neutrino.
Electron neutrino was created in 1956.
Tau neutrino was created in 2000.
Walter Baade and Fritz Zwicky proposed the existence of the neutron star in 1934. Antony Hewish and Samuel Okoye discovered "an unusual source of high radio brightness temperature in the Crab Nebula" in 1965, which turned out to be the Crab Nebula neutron star.
An antielectron neutrino is an antileptonic elementary particle - the antiparticle of an electron neutrino.
An antimuon neutrino is an antileptonic elementary particle which is the antiparticle of a muon neutrino.
IceCube is a particle dectector located at the South Pole and it records the massless sub-atomic particle Neutrino. IceCube is the largest Neutrino detector.
Neutrino
I think you might be referring to the Neutrinos in the Lepton section of the Subatomic Particle Table, each non Neutrino in the Lepton section has a Neutrino equivalent, for example an Electron and a Electron Neutrino, or the Muon and the Muon Neutrino. Unless you were referring to the Gauge Bosons which are forces used to connect Quarks and Leptons together, all the forces have a 0 charge. This should answer the Question.
This particle is a neutron:neutron-----------proton + electron + neutrino
neutrino
The neutrino.
In 1959, the discovery of a particle fitting the expected characteristics of the neutrino is announced by Clyde Cowan and Fred Reines.
No. Both the photon and the neutrino have zero electrical charge and as such cannot create a charged particle.
The neutrino is not an exchange particle, it does not transmit force.
Neutrino