What exactly did you intend to ask? Actually there can be only 2 electrons on one orbital of any level and any type. It's according to Pauli concept (no any two electrons can have the same all four quantum numbers, and these numbers are determining the level, sublevel, orbital position and the spin of electron(which can be whether 1/2 or -1/2, so that only two electrons can occupie the same orbital, no matter, which)).
14.
f = sub shell with quantum number 3
# orbitals = 2 * (sub shell quantum number) + 1
(2*3+1=7)
There is allowance for two electrons per orbital: # electrons = # orbitals * 2
(7*2=14)
14, there are seven f orbitals
14 maximum
7
No it can only hold up to 2. You have a rule for finding the maximum of electrons in every single shell. It is 2 *(shellnumber)2. Shell number 1 = 2 electrons Shell number 2 = 8 electrons Shell number 3 = 18 electrons Shell number 4 = 32 electrons Shell number 5 = 50 electrons Shell number 6 = 72 electrons Shell number 7 = 98 electrons Shell number above does for the moment not exist.
n=3;1=3;m1=-2;ms=+1/2 answer =0
there are actually 7 orbitals.. the different orbitals are s,p,d,f s has 1, p has 3, d has 5, and f has 7. i hope this helps you..i got this info straight from my chem teacher..
f has 14 electrons in 7 sublevel orbitals,d has 10 electrons in 5 sublevel orbitals,p has 6 electrons in 3 sublevel orbitals,s has 2 electrons in 1 sublevel orbital.
The maximum number of electrons that can exist in 4f orbitals is 14.-pg. 110 Modern Chemistry table 2:)
7
The f-suborbitals begin to be filled with the lanthanoids (atomic number 57-71). Each f-suborbital can hold a maximum of 14 electrons.
No it can only hold up to 2. You have a rule for finding the maximum of electrons in every single shell. It is 2 *(shellnumber)2. Shell number 1 = 2 electrons Shell number 2 = 8 electrons Shell number 3 = 18 electrons Shell number 4 = 32 electrons Shell number 5 = 50 electrons Shell number 6 = 72 electrons Shell number 7 = 98 electrons Shell number above does for the moment not exist.
n=3;1=3;m1=-2;ms=+1/2 answer =0
there are actually 7 orbitals.. the different orbitals are s,p,d,f s has 1, p has 3, d has 5, and f has 7. i hope this helps you..i got this info straight from my chem teacher..
f has 14 electrons in 7 sublevel orbitals,d has 10 electrons in 5 sublevel orbitals,p has 6 electrons in 3 sublevel orbitals,s has 2 electrons in 1 sublevel orbital.
The maximum number of f orbitals in any single energy level in an atom is 7.
The maximum number of valence electrons is SEVEN (7 is total number of electrons in the uncompleted highest level s- and p-orbitals: s2 and p5 = (sp)7)You'll find this mainly in group 17: the halogens, though other elements may also have 7 valences: eg. Manganese in permanganate MnO4-
14.
Lead has 82 electrons. It also has four valence electrons, two s- electrons and two p- electrons in its orbitals.
The maximum number of electrons in the outer energy level of any atom (the so-called valence band) will depend on the atom (element) being investigated. Different outer electron energy levels can contain a different maximum number of electrons. The energy levels, sometimes called orbitals, are designateds, p, d and f. The maximum number of electrons in the energy levels of each of these orbitals is as follows"s = 2 electrons maximump = 6 electrons maximumd = 10 electrons maximumf = 14 electrons maximumg = 18 electrons maximumIt falls on the investigator to determine the electron configuration of a given atom (element) under investigation, and, thus informed, he will be able to deduce the number of electrons in that atoms's outer electron shell.This can get complicated in a hurry, but it is easily understandible with a little work.Extra information is provided in the Wikipedia post on atomic orbitals, and a link is provided below to that article.or easier it is 32