Most of the atom is empty space (between the electron orbitals and the nucleus itself). If your talking about nucleus vs. electrons then the nucleus is larger in volume and mass
No it does not. It accounts for almost all of the mass, not voloume
no most space of an atom is not empty it is covered by nucleus
Yes most of the mass but least of the volume
No, a proton is a subatomic particle that is found in the nucleus of an atom. The majority of the volume of an atom is made up of the empty space surrounding the nucleus, where the electrons are found.
Most of the atom by volume is empty space. The nucleus, which contains protons and neutrons, makes up a very small portion of the atom's volume. Electrons occupy the majority of the atom's volume in the electron cloud surrounding the nucleus.
No, most of an atom's volume is actually empty space. The nucleus of an atom, which contains the protons and neutrons, makes up a very small portion of the total volume. The rest of the space is occupied by the electrons, which move around the nucleus in specific energy levels.
most of an atoms is taken up by
Rutherford discovered that the nucleus occupies a very small volume compared to the overall size of the atom. He found that the nucleus is extremely dense and contains nearly all the mass of the atom, while the rest of the atom is mostly empty space.
Yes, the majority of an atom's volume is indeed empty space. At the center of the atom is a dense nucleus containing protons and neutrons, while electrons orbit around the nucleus in distinct energy levels. The space between the nucleus and the electrons is where most of the atom's volume is found.
The nuclear model of the atom suggests that an atom is mostly empty space with a small, dense nucleus at the center. The volume of an atom is therefore primarily occupied by this empty space, with the nucleus accounting for a very small portion of the total volume.
No, a proton is a subatomic particle that is found in the nucleus of an atom. The majority of the volume of an atom is made up of the empty space surrounding the nucleus, where the electrons are found.
It is the empty space between the nucleus and the electron shells.
Mainly empty space, with a very small and dense nucleus at the center containing the majority of the atom's mass.
Nearly all the mass is in the nucleus; however, the bulk of an atom's volume is empty space.
Most of the atom by volume is empty space. The nucleus, which contains protons and neutrons, makes up a very small portion of the atom's volume. Electrons occupy the majority of the atom's volume in the electron cloud surrounding the nucleus.
An atom is made up of protons and neutrons in a nucleus surrounded by electrons in orbital shells. The majority of the volume however, is empty space.
No, most of an atom's volume is actually empty space. The nucleus of an atom, which contains the protons and neutrons, makes up a very small portion of the total volume. The rest of the space is occupied by the electrons, which move around the nucleus in specific energy levels.
Yes, this is essentially true. Well over 99.9% of the mass of any atom is in the nucleus. The electrons in their orbitals around that nucleus actually determine the spacial volume that the atom occupies. And on an atomic scale, the distance from the nucleus to the outer boundaries of the electron cloud is enormous. The atom is mostly empty space, and, therefore, anything made up of atoms is mostly empty space.
Empty space makes up most of the volume of an atom. The nucleus (protons and neutrons) make up most of the mass.
The thing that takes up the most space of an atom at about 99.99% of the size of the atom is empty space. The majority of the remaining 0.01% is found in the nucleus and about 0.00001% of the atom is taken by the electrons.