Eight, except for helium, which has a maximum of two.
It would be the atomic symbol for silver (Ag) with however many dots around it as the number of valence electrons. The dots are placed with a maximum of two on each side bringing the highest total to eight, reserved for the noble gases. The Lewis dot diagram for silver would be .Ag (the dot can go on any side; it does not make a difference.)
it is related to the number of electrons that are in in the outer shell, and the total number of electrons
There is no upper limit.
The reason it can be placed in group II is because it has 2 electrons in its outside shell (also its only shell) and the groups represent how many electrons in the elements outside shell, the reason it is normally placed in group 8 or 0 is because the first shell has a maximum of 2 electrons and all elements that have a full outside shell are placed in group 8/0 and can't normally react.
Electron dot structure - valence electrons are represented by dots placed around the chemical symbol. Electrons are placed up to two on each side of the elemental symbol for a maximum of eight, which is the number of electrons in a filled s and p shell. We place a single electron on each side before pairing them up (this is related to Hund's rule). Period one represents an exception where only a maximum of two electrons are placed on one side of the element (why is this so?). Electron dot structures for the first two periods - Number of valence electrons related to group number. Covalent bonds - Sharing electrons, unlike ionic compounds where electrons are thought of being gained or lost. Non-metals exhibit both covalent and ionic bonds compounds with metals, non-metals generally gain en electron and become negatively charged compounds with other non-metals, valence electrons are generally shared to achieve filled valence shell. sharing electrons - covalent bonding - the sharing of electrons is the glue that binds atoms together.
It would be the atomic symbol for silver (Ag) with however many dots around it as the number of valence electrons. The dots are placed with a maximum of two on each side bringing the highest total to eight, reserved for the noble gases. The Lewis dot diagram for silver would be .Ag (the dot can go on any side; it does not make a difference.)
32 electrons is the maximum number that can simultaneously maintain the fourth energy level in an atom's electron shell. The equation used to find this number is: 2 x n2 in which "n" is the energy level being referred too. To find the maximum electron count for the fourth energy level we insert the number four in for "n" then solve: 2 x (4)2 = 32 electrons
it is related to the number of electrons that are in in the outer shell, and the total number of electrons
The number of electrons in the outermost orbital.
There is no upper limit.
A. The number of electrons in an atomB. The electrons found only in certain energy levelsC. The size of the electronsD. The speed of the electrons
The reason it can be placed in group II is because it has 2 electrons in its outside shell (also its only shell) and the groups represent how many electrons in the elements outside shell, the reason it is normally placed in group 8 or 0 is because the first shell has a maximum of 2 electrons and all elements that have a full outside shell are placed in group 8/0 and can't normally react.
The electrons in the atom are found on the outer rings, the limit of 2 on the first up to 8 on the valence ring. The number of the electrons found on the valence ring determines where the chemical is placed on the Periodic Table.
The maximum number of feet that a safety net can be placed directly below the working surface is 30 feet. However, closer is better and the net should be closer if possible.
Electron dot structure - valence electrons are represented by dots placed around the chemical symbol. Electrons are placed up to two on each side of the elemental symbol for a maximum of eight, which is the number of electrons in a filled s and p shell. We place a single electron on each side before pairing them up (this is related to Hund's rule). Period one represents an exception where only a maximum of two electrons are placed on one side of the element (why is this so?). Electron dot structures for the first two periods - Number of valence electrons related to group number. Covalent bonds - Sharing electrons, unlike ionic compounds where electrons are thought of being gained or lost. Non-metals exhibit both covalent and ionic bonds compounds with metals, non-metals generally gain en electron and become negatively charged compounds with other non-metals, valence electrons are generally shared to achieve filled valence shell. sharing electrons - covalent bonding - the sharing of electrons is the glue that binds atoms together.
-An element is placed in that group of periodic whose group number is equal to the number of valence electrons.
2 electrons