2, 8, 18, 32, 32, 18, 8
well the first shell can only contain 2 electrons then in the second shell and up you can have up to eight that is how it goes
The Bohr diagram for lead chloride (PbCl2) would show lead with two electrons in its outer shell and chlorine atoms with seven electrons each, forming a stable ionic bond. Lead would have a full inner shell and an empty outer shell, while the chlorine atoms would each have a complete outer shell.
Seaborgium has 106 protons; shellls, diagrams are related to electrons.
I assume you mean Bohr, as in Neils Bohr, the physicist and chemist famous for the Bohr model of the atom.Imagine a "C" inside of a square. If one were to put one "dot" on each side of the hypothetical box, you would have a bohr model Carbon atom.
A Bohr model diagram is commonly used to represent an atom and its electrons. This model shows the electrons orbiting around the nucleus in specific energy levels or shells. Each shell can hold a certain maximum number of electrons based on the atomic number of the atom.
well the first shell can only contain 2 electrons then in the second shell and up you can have up to eight that is how it goes
The Bohr diagram for lead chloride (PbCl2) would show lead with two electrons in its outer shell and chlorine atoms with seven electrons each, forming a stable ionic bond. Lead would have a full inner shell and an empty outer shell, while the chlorine atoms would each have a complete outer shell.
Seaborgium has 106 protons; shellls, diagrams are related to electrons.
I assume you mean Bohr, as in Neils Bohr, the physicist and chemist famous for the Bohr model of the atom.Imagine a "C" inside of a square. If one were to put one "dot" on each side of the hypothetical box, you would have a bohr model Carbon atom.
The Bohr diagram for aluminum would have three orbitals, as aluminum has three electron shells (K, L, M). Each shell corresponds to an orbital level in the Bohr model.
A Bohr model diagram is commonly used to represent an atom and its electrons. This model shows the electrons orbiting around the nucleus in specific energy levels or shells. Each shell can hold a certain maximum number of electrons based on the atomic number of the atom.
The formula for getting the total number electrons occupying a shell is given by 2n2 For M shell the principal quantum number, that is, 'n' is 3. So 2 x 9 = 18 For N shell its quantum number is 4 and hence 32 electrons.
The bohr model of an atom shows the number of electrons, neutrons, and protons contained in the atom. Each electron is in an orbital (the lines), and the protons and neutrons are contained in the nucleus (the center thingy).
The Bohr model for beryllium is a simplified representation of a beryllium atom where electrons orbit the nucleus in circular orbits at specific energy levels. In this model, beryllium has four electrons arranged in two energy levels or shells, with two electrons in the inner shell and two in the outer shell. The Bohr model helps to explain the electronic structure and properties of beryllium.
The number of protons that an atom of an element has can be found in the periodic table by finding the ATOMIC NUMBER (the smaller number). Therefore, we can also find the number of electrons.got it?
A Bohr diagram is a simple representation of an atom, showing the nucleus in the center with electrons in specific energy levels or shells surrounding it. Each shell is labeled with the number of electrons it can hold, and electrons are represented by dots or other symbols on the shells.
The number associated with positive charges in a nucleus of each atom determine the atomic number in a Bohr diagram.