Tau neutrino was created in 2000.
Electron neutrino was created in 1956.
I presume you mean lepton instead of lapton ;) In which case leptons are not electrons, but electrons are leptons. Leptons are a group of matter particles which do not feel the strong nuclear force and are believed to be elementary (i.e. they do not consist of smaller particles). They are: -Electron -Muon -Tau(on) -Electron neutrino -Muon neutrino -Tau neutrino and their associated anti particles (such as the anti-electron, commonly known as the positron).
Definatly not! A Neutron is a kind of Baryon (a type of Hadron) made up of the subatomic particles: Up quark, Down quark and Electrons. Now a Neutrino is different, there are three different types. There are Electron Neutrinoes, Muon Neutrinoes, and Tau Neutrinoes. Neutrinos are a type of Lepton, for every Neutrino there is a equivalent non-neutrino. For example, There is an Electron and an Electron Neutrino. So to conclude Neutrino does not mean Neutron, instead it is describing a type of Lepton. This should answer the Question.
Ma Tau Wai Estate was created in 1965.
Lack of lab equipment, Cowan Reines proved the existence of the neutrino in 1956 but to do that they needed a nuclear reactor as a source of a neutrino flux
They aren't 3 they are in fact 12 if you count anti matter as a separate particle from matter. Electron, muon, tau, electron neutrino, muon neutrino and tau neutrino. The same apply to anti matter positron, anti muon, anti tau, postrin neutrino, anti muon neutrino, and anti tau neutrino.
six quarks, 6 leptons as well as 13 gauge bosons up quark down quark bottom quark top quark strange quark charm quark electron muon tau electron neutrino muon neutrino tau neutrino graviton photon W and Z and 8 gluons that carry the strong force
6 Quarks (Up, Down, Charm, Strange, Top, Bottom) 6 Leptons (Electron, Muon, Tau, Electron Neutrino, Muon Neutrino, Tau Neutrino) 5 Bosons (Photon, W+,W- & Z Bosons, Gluon) Overall 17
6 Quarks (Up, Down, Charm, Strange, Top, Bottom) 6 Leptons (Electron, Muon, Tau, Electron Neutrino, Muon Neutrino, Tau Neutrino) 5 Bosons (Photon, W+,W- & Z Bosons, Gluon) Overall 17
Examples: positron, photon, neutrino, muon, tau, Higgs boson etc.
Muon neutrino was created in 1962.
Electron neutrino was created in 1956.
Examples: proton, muon, boson Higgs, positron, antineutron, tau neutrino etc.
The problem was that the Sun should output a lot more electron neutrinos then were measured. This meant that the model describing the interior of the Sun would be wrong, but it was working very well in predicting other things. It was finally solved when something called neutrino oscillation was discovered. It turned out that (this might be a bit technical) the interaction state of a neutrino was not equal to its mass or propagation state. In short, this meant that electron neutrino's could become muon or tau neutrino's after a while (and change back again after that). After this people began looking for muon and tau neutrinos coming from the Sun and together with the electron neutrino number they added up to the amount the Solar model predicted. The problem was thus solved; the Sun DOES output more electron neutrino's but some of these change into muon or tau neutrinos before they reach the Earth, and since we were initially only looking for electron neutrinos we missed some.
Baksan Neutrino Observatory was created in 1977.
Little Neutrino was created on 1974-10-18.
I presume you mean lepton instead of lapton ;) In which case leptons are not electrons, but electrons are leptons. Leptons are a group of matter particles which do not feel the strong nuclear force and are believed to be elementary (i.e. they do not consist of smaller particles). They are: -Electron -Muon -Tau(on) -Electron neutrino -Muon neutrino -Tau neutrino and their associated anti particles (such as the anti-electron, commonly known as the positron).