no it can't.
The empirically measured covalent radius of carbon is 7o picometers; it is a small atom.
Scandium empirical atom radius: 160 pm Scandium calculated atom radius: 184 pm
An iodine atom has one more principal energy level than a bromine atom. Therefore the radius of an iodine atom is greater than the latter.
When determining the size of an atom by measuring the bond radius, the radius of an atom is typically defined as half the distance between the nuclei of two atoms that are bonded together. This is known as the covalent radius.
Atomic radius is defined as the distance from the nucleus to the outermost electron cloud in an atom. It is often measured as half of the distance between the nuclei of two bonded atoms.
The empirically measured covalent radius of carbon is 7o picometers; it is a small atom.
The ionic radius is the measure of an atom's ion in a crystal lattice. The value for an ionic radius is typically 30 pm to about 200 pm. An ionic radius is usually measured using x-ray crystallography.
The size of an atom is typically represented by its atomic radius, which is the distance from the nucleus to the outermost electron orbit. This distance is often measured in picometers (pm).
Scandium empirical atom radius: 160 pm Scandium calculated atom radius: 184 pm
That depends on the units the radius is measured in. Radius is a distance and can be measured using any unit of length.
The size of an atom is typically measured in terms of its atomic radius, which for helium is approximately 31 picometers (pm), or 0.31 angstroms. This corresponds to the distance from the nucleus to the outermost electron cloud in a helium atom.
The radius of an oxygen atom is approximately 0.65 angstroms.
calculate radius of crane: The radius is always measured from the centre of rotation and is the radius measured after the boom deflects forward when under load.
An iodine atom has one more principal energy level than a bromine atom. Therefore the radius of an iodine atom is greater than the latter.
Ionic radius is the size of an ion after it has gained or lost electrons, leading to a change in the electron configuration and thus its size. Atomic radius refers to the size of an atom, typically measured as the distance from the nucleus to the outermost electron shell. Ionic radius is affected by the change in electron configuration, while atomic radius is more related to the position of the outer electrons in the neutral atom.
The radius of a rhodium atom is approximately 1.35 angstroms.
The ionic radius is the measure of an atom's ion in a crystal lattice. The value for an ionic radius is typically 30 pm to about 200 pm. An ionic radius is usually measured using x-ray crystallography.