There is electron charge (and mass) everywhere inside the atom. It is not empty space.
There is electronic charge density in the entire volume of an atom. The electrons are said to orbit the nucleus, but that is a short hand description of reality. Reality is described by quantum mechanics and the representation of the location of the electrons is more like a diffuse cloud throughout the atom.
Empty space. Nothing.
Nothing. Empty space.
Nothing between the electrons and the nucleus is nothing
99.9% of that space has no matter in it
In between the nucleus and electrons there is not vacuum or space,there is some thing that is electromagnetic field.:)But everybody is saying that is a vacuum "or" space.
nothing. the order is electrons, nucleus, protons, neutrons
Space.
Empty space
There are 19 electrons in the potassium nucleus.
Neon. The closer electrons are to the nucleus, the greater the pull the nucleus has on the electrons.
Caesium has more electron levels than rubidium, because the electrons are further away the attraction between the outer electrons and protons in the nucleus is less. But that's not just the answer. There is also a thing called electron shielding, the negative charges, of the electrons in the energy levels closer to the nucleus, sort of repel the outer electrons so they can't get closer to the nucleus. Since the electrons are further away and have the attraction from the positively charged nucleus reduced, it takes less energy to break the attraction for caesium than rubidium.
The Nitrogen Atom possesses seven protons in its nucleus; therefore the electrically neutral atom of Nitrogen has seven electrons in orbit about it.
Valence electrons are located farthest from the nucleus of the atom.
the force of attraction between then nucleus and the valence electrons is less than that between the nucleus and the core electrons
Protons and neutrons are situated in the nucleus; electrons surround this nucleus. Between the nucleus and clouds of electrons surely is a zone of vacuum; the structure of the atomic nucleus is not exactly known.
electrostatic force between the nucleus and the electrons.
As alkali metals increase in size, the distance of the outermost electrons from the nucleus increases. The attraction between the electrons and the nucleus is electrostatic, and it is a fundamental property of electrostatic attractions that the attraction decreases with increasing distance between the attracting charges. Another way of describing this is that the attractive force is partially "screened" by the inner electrons between the outermost electrons and the nucleus.
Between electrons and the atomic nucleus a repulsion exist.
A covalent bond is held together by the attractions between the protons in the nucleus and shared electrons.
Nucleus is positively charged and contains positively charged protons and neutral neutrons. The nucleus is present at the centre of an atom. The electrons are negatively charged and revolve around the nucleus.
Nucleus is positively charged and contains positively charged protons and neutral neutrons. The nucleus is present at the centre of an atom. The electrons are negatively charged and revolve around the nucleus.
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electronegativity
No, the electrons are around the nucleus, not in the nucleus.
The electrostatic forces between the protons and the electrons keep it in orbit.