This element 53 is called: Iodine, diatomic element I2.
iodine
Yes, they're the same element, if that is the point of the question. The number of protons (and only that) determines what element the atom will be. Neutron and electron numbers can vary without changing the identity of the element.
There are three main parts to an Atom. The atom comprises of protons, neutrons, and electrons. The location of each are Protons and Neutrons at the core, and Electrons in the shell **oribits around the core.** Protons and Neutrons are equal in amount unless the atom/element is an isotope.
The Number of protons of an atom defines which element it is, for example an atom with three protons will always be Lithium If it is an atom, not an ion, then the number of protons = no. of electrons differing numbers of neutrons effect the atomic mass of an atom, differing atomic masses create isotopes, but they are still the same element? what sets an atom of one element from atoms of all other elements is the elements atomic number,
There is no such element. Atomic numbers represent how many protons are in the nucleus of an atom. Lithium's atomic number is three; it has three protons. An atom with 35.543 protons can't exist because there can't be a fraction of a proton - how can you have 35 and .543 protons? I think perhaps you confused atomic number with atomic mass. Chlorine's atomic mass is 35.543 grams.
The number of protons. One proton and you have Hydrogen, two - Helium, three - Lithium, and so on. The atomic number is defined by how many protons are in an atom.
There are many different types of elements, all varying in the number of protons they contain. To determine the number of protons in a specific element, refer to the periodic table of elements. The atomic number (generally listed above the element's symbol, sometimes represented as 'Z') is equal to the number of protons in that atom.
Iodine belongs to halide family. It has atomic number fifty three.
The periodic number of an element signifies its number of protons. Hydrogen, the first element, has one proton. Helium, the second element, has two protons. Lithium, the third element, has three protons. I'm sure you can figure out the rest.
Yes, they're the same element, if that is the point of the question. The number of protons (and only that) determines what element the atom will be. Neutron and electron numbers can vary without changing the identity of the element.
An atom of an element is comprised of protons, electrons, and usually neutrons. The specific element is determined by the number of protons, and so there is only one particle that determines the element.
There are three main parts to an Atom. The atom comprises of protons, neutrons, and electrons. The location of each are Protons and Neutrons at the core, and Electrons in the shell **oribits around the core.** Protons and Neutrons are equal in amount unless the atom/element is an isotope.
Lithium has three protons and three electrons. The number of electrons always equals the number of protons. Lithium has two isotopes, one with three neutrons and one with four neutrons.
This depends on the element. Hydrogen has one proton (per atom), helium has two, beryllium has three, etc.
Protons, electrons, and neutrons are the three main parts of atoms. In an atom, the nucleus contains the protons and neutrons, the electrons are found in shells around the nucleus. On the periodic table, the atomic number tells you the number of protons of an element.
Lithium
The Number of protons of an atom defines which element it is, for example an atom with three protons will always be Lithium If it is an atom, not an ion, then the number of protons = no. of electrons differing numbers of neutrons effect the atomic mass of an atom, differing atomic masses create isotopes, but they are still the same element? what sets an atom of one element from atoms of all other elements is the elements atomic number,
The number of protons. One proton and you have Hydrogen, two - Helium, three - Lithium, and so on. The atomic number is defined by how many protons are in an atom.