There are 4 electronic shells in period 4 while there are 5 shells in period 5.Elements of period 4 are smaller in size as compared to elements of period 5.Example of period 4 element is potassium and period 5 element is tin.
see what period it is in on the periodic table it is in period 6, so therefore there are 6 electron shells or energy levels
Four shells, as potassium is in fourth period
4
An element can easily have more than 4 shells.. E.g. all elements in the 7th period have 7 shells, wherein their electrons are distributed in 4 types of orbitals, being: s, p, d and f orbitals.
if an element has 1 shell in its atom it is in period 1and so on... 2 shells=period 2 3 shells=period 3 4 shells=period 4 5 shells=period 5 6 shells=period 6 7 shells=period 7
There are 4 electronic shells in period 4 while there are 5 shells in period 5.Elements of period 4 are smaller in size as compared to elements of period 5.Example of period 4 element is potassium and period 5 element is tin.
it is in group, 4 and in period 2 group means how many electrons in outer shell, and period means how many electron shells it has:)
Calcium is in group 2, period 4 of the periodic table. It has an electron configuration of 1s2 2s2 2p6 3s2 3p6 3d10 4s2. This shows us that 4 is its valence shell. Therefore, the other 3 shells are its core shells.
Phosphorus in is 3rd period. So it has 3 electron shells.
see what period it is in on the periodic table it is in period 6, so therefore there are 6 electron shells or energy levels
Four shells, as potassium is in fourth period
Germamium is in period 4 and group 4. It is in period 4 because it has 4 shells that hold electrons. It is in group 4 because it has 4 electrons in its outer shell.
4
In the third period.
The number of electron shells depends on the noble gas. The number of shells will be equal to the period in which the noble gas is present.
The calcium atom has 2 outer shell electrons. It's configuration is: [Ar] 4s2 it also has 2 inner shell electrons