We generally think of protons, neutrons and electrons as the "building blocks of atoms" when we are in the world of the atom. There are fundamental particles smaller than these, but, in general, we usually focus on these atomic building blocks. There are other questions on WikiAnswers that speak to the characteristics of each of these particles, and you'll find links to each of them below. Use them to gather information.
Particles in the atom:
Neutron:
Mass: 1,00866491600(43) amu.
Charge: neutral
Electron:
Mass: 5,4857990946(22)×10−4 amu.
Charge: negative
Proton:
Mass: 1,007276466812(90) amu.
Charge: positive
Yes, the muon is a subatomic elementary particle. The subatomic label is not really needed; all elementary particles are subatomic.
no, a molecule is composed of 2 or more atoms.
an electron is found in shells , it is a subatomic particle
Subatomic particles are proton, neutron, electron; these particle are some examples of the large group of elementary particles.
The electron has the smallest mass between subatomic particles: 9,10938291(40).10-31 kg.
The subatomic particles, I guess.The subatomic particles, I guess.The subatomic particles, I guess.The subatomic particles, I guess.
This particle is the electron
Subatomic particles with no charges are neutrons
All subatomic particles have mass.
Subatomic particles are: neutron, proton, electron.
Everything is made of subatomic particles.
Assuming that you mean the chemical properties, the electrons are what define each element. If you meant subatomic particles, then it doesn't matter; each subatomic particle has unique characteristics.
subatomic particleIn physics or chemistry, subatomic particles are the small particles composing nucleons and atoms. There are two types of subatomic particles: elementary particles, which are not made of other particles, and composite particles.
subatomic particles make up the molecule
Yes, atoms contain subatomic particles.
Molecules contain atoms and these atoms contain subatomic particles.
Subatomic particles are protons, neutrons and electrons.