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There are many subatomic partials but the three basic ones are: the electron, the neutron, and the proton. The electron has a negative (-) charge. the proton has a positive (+) charge. and, The neutron doesn't have a charge (but has more mass).
if you where talking about quarks, they are a bit more complex (and theoretical) and I don't rely know...
What else can I help you with?
Is electrical charge a subatomic particle?
No, electrical charge is a property of subatomic particles. Subatomic particles such as electrons and protons carry electrical charge, which can be positive or negative.
What is a sub-atomic particle?
A subatomic particle is something smaller than an atom. These are further broken up into elementary and composite subatomic particles. Electrons are elementary, whereas protons and neutrons are composite and can still be further broken down.
What is the number of protons neutrons and electronss of helium?
Two of each subatomic particle listed in the question.
How do the electric charges of alpha particles beta particles and gamma rays differ from each other?
From Physics Forums The alpha particle has a 2+ charge, beta has 1- charge, and the gamma is neutral (no charge). The beta particle could also have a 1+ charge if it undergoes positron emission [a proton turns into a neutron and a positron (the "anti-electron")]
Atomic particle with a positive change is part of an atom's nucleus?
It is called proton.It is found in the nucleus of each atom, along with neutrons, but is also stable by itself and has a second identity as the hydrogen ion, H+.
What is the charge on each subatomic particle?
For the atom: Neutron: Charge: neutral Electron: Charge: negative Proton: Charge: positive
Which subatomic particle has a charge of 1 and a mass of 1 AMU?
Both one proton and one neutron each has a relative mass of 1 a.m.u.
Is electrical charge a subatomic particle?
No, electrical charge is a property of subatomic particles. Subatomic particles such as electrons and protons carry electrical charge, which can be positive or negative.
What is the significance of the charge of subatomic particles in the field of particle physics?
The charge of subatomic particles is significant in particle physics because it determines how they interact with each other and with electromagnetic fields. Understanding these interactions helps scientists study the fundamental forces and building blocks of the universe.
What is the subatomic particle with a no electrical charge?
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.
What is the electric charge of each particle in an atom?
Proton: positive Electron: negative Neutron: neutral
A heavier nuclear particle is composed of a triplet of strange quarks. What is a charge if this particle?
The charge of a triplet of strange quarks would be -⅓ times 3, which is -1. This is because each strange quark has an electric charge of -⅓.
What is a property that causes subatomic particles such as protons and electrons to attract or repel each other?
Electric charge is a property that causes subatomic particles such as protons and electrons to attract or repel each other. Particles with opposite charges (e.g. positive and negative) attract each other, while particles with the same charge (e.g. positive and positive) repel each other.
What are the masses of each subatomic particle?
protons and neutrons are about 1 amu
What is the substance of electric charge?
As far as we know there isn't one. Electric charge is an intrinsic part of certain subatomic particles. We don't know why, nor do we know why they have the characteristic magnitude they do ... it's just how the universe is. Up quarks (which have a charge 2/3 as large as the charge on an electron, but of opposite polarity) and down quarks (which have a charge 1/3 as large as the charge on an electron, and of the same polarity) combine in such a way that protons wind up having the same charge as electrons but opposite polarity. We don't know why this should be so, but it's very convenient.If you meant the gauge particle ... the gauge particle for the electromagnetic force is the photon (which is not, itself, charged).There is no specific substance for electric charge. Lots of subatomic particles - but not all of them - have the property of electric charge, which may be positive or negative (or neutral). In practice, electric charge is often carried by electrons, but it may also be carried by positive or negative ions, by positive holes, etc.
Which subatomic particle identifies isotopes?
The number of neutrons is different for each isotope.
Which subatomic particle identifies an isotope?
The number of neutrons is different for each isotope.
