The 5p subshell is a p-subshell, and as such is filled by 6 electrons - three pairs spinning in opposite directions.
The number of electrons in each subshell is as follows:
Subshell s p d f theoretical next subshells
No. of e- 2 6 10 14 18, 22, 26, etc.
42
14
Any orbital can only contain a maximum of 2 electrons. The 5d energy level contains 5 orbitals - 5dxy 5dxz 5dyz 5d(x2-y2) and 5(dz2) each of which can contain a maximum of two electrons, so there are 10 total electrons in the set of 5 d orbitals.
too many!
sulphur forms -2 ions as SO3-2 sulphite ion , SO4-2 sulphate ion and S-2 sulphide ion, these three are stable ions , sulphate is the most. other ions of sulphur are S2O3-2 , S2O7-2 and S2O8-2 .
5p
In a ground-state tellurium atom, there are no electrons in orbitals labeled by l equals 1. l equals 1 corresponds to p orbitals, and tellurium's electron configuration fills up to the 5p orbital. So, there are 0 electrons in orbitals with l equals 1 in a ground-state tellurium atom.
In the fifth period of the periodic table, the atoms of the elements in the first two groups are adding 1 and 2 electrons, respectively, to their highest energy 5s sublevel. Starting in group 3/IIIB and going through group 12/IIB, the atoms of those elements are adding electrons to their highest energy 4d sublevel. Since the d sublevel can contain a maxium of 10 electrons, there are 10 elements whose atoms are filling the 4d sublevel. Once the 4d sublevel is filled, the next higher energy sublevel is the 5p sublevel. Starting with the group 13/IIIA elements, the 5p sublevel is being filled. Since a p sublevel can contain a maximum of 6 electrons, there are six elements whose atoms are filling the 5p sublevel. 5s sublevel filling: 2 elements 4d sublevel filling: 10 elements 5p sublevel filling: 6 elements --------------------------------------- Total: 18 elements For a printable periodic table that includes electron configurations, go to the following link: http://www.nist.gov/pml/data/periodic.cfm
2s: 2 electrons 5p: 6 4f: 14 3d: 10 4d: 10
6
If the principle energy level is n=1 then the type of sublevel is 1sN=2---> type of sublevel is 2s and 2pN=3---> type of sublevel is 3s, 3p, and 3dN=4---> type of sublevel is 4s, 4p, 4d, and 4fN=5---> type of sublevel is 5s, 5p, 5d, 5f and 5gN=6---> type of sublevel is 6s, 6p, 6d, 6f, 6g, and 6hN=7---> type of sublevel is 7s, 7p, 7d, 7f, 7g, 7h, and 7iNote that:s = 1 orbitalp = 3 orbitalsd = 5 orbitalsf = 7 orbitalsg = 9 orbitalsh = 11 orbitalsIf you look closely its just adding 2 to each orbital. If you want to know the number of electrons occupying the orbitals just multiply the orbital by 2.
if question isHow many 5p's are in £22 x 5p = 10p20 x 5p = 100p = £140 x 5p = 200p = £2Answer: forty
5p, 5s
5p+5p
Yes, it exists. If you write the orbitals in order of increasing energy, then you get it. The order is:- 1s<2s<2p<3s<3p<4s<3d<4p<5s<4d<5p<6s<4f<5d<6p..................... Here, you get the 3s orbital at the 4th place.
80 5p coins.
There are... 21,588 5p pieces in 1079.40
sixty2 x 5p = £0.1020 x 5p = £1.0040 x 5p = £2.0060 x 5p = £3.00
20 x 5p = £1 200 x 5p = £10 2,000 x 5p = £100