It can be determined by the size of it's electron. The reason for this being is because of the mass that is calculated by the protons to the neutrons of the atoms within the nucleus.
The volume and size of an atom are primarily determined by the electron cloud surrounding the nucleus. Electrons contribute most to the volume and size of an atom, as they occupy the space around the nucleus and form the electron cloud. The nucleus, which contains protons and neutrons, is much smaller in comparison to the electron cloud and contributes very little to the overall size of the atom.
According to the Bohr theory, the size of an atom is determined by the orbit of its electrons around the nucleus. The size of an atom is mainly influenced by the average distance of the outermost electron shell from the nucleus.
Since the volume of an atom is determined by the radius of its electron cloud, we can use the atomic radius to approximate the volume each atom occupies. The atomic radius of Cs is larger than that of F, so more F atoms would be needed to occupy the same volume as one Cs atom. Approximately 9 F atoms are needed to occupy the same volume as one Cs atom.
The volume of one atom of argon cannot be calculated because atoms do not have a definite volume due to their small size and quantum nature. Atoms are typically measured in picometers, which is a unit of length rather than volume.
The volume of a gas is dependent on the pressure and temperature of the gas.
By the size of the atom and its mass
The physical size of an atom is largely determined by the size of the electron cloud.
The volume and size of an atom are primarily determined by the electron cloud surrounding the nucleus. Electrons contribute most to the volume and size of an atom, as they occupy the space around the nucleus and form the electron cloud. The nucleus, which contains protons and neutrons, is much smaller in comparison to the electron cloud and contributes very little to the overall size of the atom.
The electron cloud contributes the most volume of an atom. While the nucleus contains most of the atom's mass, it occupies a very small space compared to the vast area of the electron cloud, where electrons are found. The electron cloud's size is determined by the energy levels and orbitals of the electrons, making it the dominant contributor to the overall volume of an atom.
According to the Bohr theory, the size of an atom is determined by the orbit of its electrons around the nucleus. The size of an atom is mainly influenced by the average distance of the outermost electron shell from the nucleus.
Think of the sun as the nucleus and the oort cloud (past pluto) as where the electron orbitals start. The size (volume) of the nucleus is tiny compared to the size (volume) of the atom (defined by the extent of the electron cloud).
Size and volume of an atom are not fixed and accurately calculated due to non-uniform boundary of atom. However, it's radius is calculated to be around 10-10 m.
The stability of an atom is determined by the:
The size of electrons does not have a direct relationship with their behavior in an atom. Electrons are considered point particles with negligible size, and their behavior is primarily determined by their energy levels and interactions with the nucleus and other electrons in the atom.
a atom does have volume
Since the volume of an atom is determined by the radius of its electron cloud, we can use the atomic radius to approximate the volume each atom occupies. The atomic radius of Cs is larger than that of F, so more F atoms would be needed to occupy the same volume as one Cs atom. Approximately 9 F atoms are needed to occupy the same volume as one Cs atom.
The size of an atom is mainly determined by the arrangement of electrons around the nucleus. Electrons are constantly moving in an electron cloud, leading to a fuzzy boundary for the atom. The nucleus, which contains protons and neutrons, contributes very little to the overall size of an atom.