What subatomic particle determines what the element is?
protons
What particle or particle determines what element an atom is?
Which two particles are attracted to each other?
The two subatomic particles that are attracted to each other are protons and electrons.
What are the smallest particles of matter?
An atom is the smallest particle of an element, having the same chemical properties as the bulk element. The first accurate theory explaining the nature of matter was Dalton’s Atomic Theory: 1. All matter is composed of atoms, and atoms are indivisible and indestructible.
Which atomic particle has the most mass?
Neutron
Which particle has a negative charge?
Electrons
Which is the lightest particle?
The lightest known particles in the universe are neutrinos which have a maximum mass of 0.0000000000000000000000000000000000018 kg. Neutrinos are come in three varieties – electron, muon and tau neutrinos. The mass is an average of the three types.
What particle has mass but no charge?
neutron
Which is the heaviest subatomic particle?
Which is heaviest particle?
So, based on given details we can conclude that neutron is the heaviest subatomic particle amongst proton, neutron, positron and neutron.
Which is the lightest subatomic particle?
Electron
What is smallest subatomic particle?
Quarks. Quarks represent the smallest known subatomic particles. These building blocks of matter are considered the new elementary particles, replacing protons, neutrons and electrons as the fundamental particles of the universe. There are six types, called flavors of quarks: up, down, charm, strange, top and bottom.
Is neutron the smallest particle?
Well, since we are in the Chemistry section, electrons, protons, and neutrons are the smallest fundamental particles.
Which particle is smallest in size?
Quarks
Is there a particle smaller than a quark?
Quarks are elementary particles and as such they are not made up of any other particles. But going by mass, yes, there are smaller particles than quarks like electrons and electron neutrinos and there corresponding antiparticles.