The electrical charge that attracts or repels the electrons to the nucleus is what holds the electrons in position.
When energy is added to a group of atoms, they excite and the electrons move further out from the center or nucleus of the atom structure this range of movement cannot be exactly tracked so scientist call it shells for noting the "area" the electron may be at a point in time.
Nucleus
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All orbitals hold a maximum of two electrons, including the innermost s orbital.
Each orbital can hold a maximum of two electrons.
2. The five d orbitals can hold ten in total.
6 electrons in 3 orbitals of p-sublevel: px, py and pz
s = 2 electrons p = 6 electrons d = 10 electrons f = 14 electrons Each single s orbital has two electrons in it. Each p orbital has two electrons in it and as there are three of these orbitals in a p subshell, the total electron number is six. d has five orbitals in its subshell, containing ten electrons (two in each orbital) when full, which form a dumbell-esque shape. f has seven orbitals each containing two electrons.
There are three 2p orbitals and each can hold a maximum of two electrons with opposite spins, for a total of 6 electrons. This is true of the p sublevel in any energy level, except for the first energy level, which does not have a p sublevel.
The d sublevel consists of five orbitals that can hold a maximum of two electrons each. The total maximum number of electrons that the d sublevel can hold is 10 electrons.
All orbitals hold a maximum of two electrons, including the innermost s orbital.
Each orbital can hold a maximum of two electrons.
The d sublevel consists of five orbitals that can hold a maximum of two electrons each. The total maximum number of electrons that the d sublevel can hold is 10 electrons.
Electrons exist in the electron cloud that surrounds the nucleus of an atom. This cloud is made up of the various orbitals that hold the electrons. Orbitals are regions of space in which the probability of finding an electron is the highest. The electrons orbit the nucleus in these orbitals and can move from one orbital to another as they gain or lose energy. 1s Orbital: This orbital is closest to the nucleus and can hold up to two electrons. 2s Orbital: This orbital is farther away from the nucleus and can hold up to two electrons. 2p Orbitals: These orbitals are even farther away from the nucleus and can hold up to six electrons. 3s Orbital: This orbital is farthest away from the nucleus and can hold up to two electrons. 3p Orbitals: These orbitals are even farther away from the nucleus and can hold up to six electrons. 3d Orbitals: These orbitals are the farthest away from the nucleus and can hold up to ten electrons.These orbitals are filled in a specific order with the 1s orbital being filled first then the 2s 2p 3s 3p and finally the 3d orbitals. The electrons in the outermost orbitals are called valence electrons and are responsible for the chemical properties of the atom.
10. The d sublevel has 5 orbitals that can each hold two electrons of opposite spin.
2. The five d orbitals can hold ten in total.
6 electrons in 3 orbitals of p-sublevel: px, py and pz
s = 2 electrons p = 6 electrons d = 10 electrons f = 14 electrons Each single s orbital has two electrons in it. Each p orbital has two electrons in it and as there are three of these orbitals in a p subshell, the total electron number is six. d has five orbitals in its subshell, containing ten electrons (two in each orbital) when full, which form a dumbell-esque shape. f has seven orbitals each containing two electrons.
Lead has 82 electrons. It also has four valence electrons, two s- electrons and two p- electrons in its orbitals.
Six in p orbital, in each sublevel of p (px, py, pz) there are two electrons at max.