Under normal conditions, i.e. non-ionic, the number of protons is equal to the number of electrons.
Two particles are considered. they are protons and nrutrons
protons and electrons.
Electrons and protons.
It depends on how you define particle. For example, if ATOMS are considered particles, then the answer is no. Take Water, one of the most simple molecules. It contains one Oxygen atom (charge -2) and two Hydrogen atoms (charge+1 each). If you consider that atoms are really made of protons, neutrons, and electrons, ALL stable molecules, polar or not, have an equal number of protons (postive charged particles) and electrons (negative charged particles), else they would not be stable.
The formula that has an equal number of nitrogen atoms is N2, which represents a nitrogen molecule composed of two nitrogen atoms bonded together.
In each neutral atom of any given element, the numbers of electrons and protons are equal, as the charges in the atom must balance. Only the neutron number may vary amongst atoms of the same element.
Two moles of atoms is equal to Avogadro's number of atoms, which is approximately 6.022 x 10^23 atoms. This is a fundamental concept in chemistry, where moles are used to quantify the amount of a substance.
No. The difference between them is that helium atoms have electrons, and alpha particles don't.
According to the Periodic table, oxygen has an atom of 8 particles..... Simple and Short. :)
The "Atomic number" of an element corresponds to the number of only the protons in the nucleus of its atoms. Add to that the number of neutrons that are also in there, and you have the "Atomic weight".
The electronegativities of two atoms are equal :)
An atom's nucleus contains two types of particles. The first is protons, which carry a negative charge. The second type of particle is the neutron, which has a neutral charge. These two particles are about equal in mass.