Orbitals, s, p, d, f and average distance from the nucleus
Orbitals are the regions of space occupied by electrons in atoms. The shapes and volumes of space are different for each type of orbital. The electrons are confined to specific shaped spaces around the nucleus. The electrons are not on the surface of these shapes. The electrons are moving inside the volume marked out by the shape.
The shape for all "s" orbitals is spherical with the center of the sphere at the nucleus. The size of the sphere increases for increasing quantum numbers. The 1s has a smaller diameter than the 2s and so forth.
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The p orbitals have a double lobe shape with the point of contact of the lobes at the center of the nucleus. The three different p orbitals are each aligned along one of the three coordinate axes x, y, or z.
The principle quantum number "n" is very useful. It tells the relative energy for an electron in an atom and it also indicates the average distance between the nucleus and an electron. The higher the value for "n" the greater the distance between the nucleus and the electron. An electron in the first level, n = 1, is closer to the nucleus on average than an electron in the n = 4 shell. Exercise: What do the subscripts x,y an z indicate about the "p" orbitals in a shell? Click here for answer
Number of orbitals in a shell
The number of each type of orbital has a mathematical origin. You need to know only the results of the math.
orbital type s p d f
Number of orbitals in a shell
The number of each type of orbital has a mathematical origin. You need to know only the results of the math.
orbital type s p d f
maximum number of orbitals in a shell 1 3 5 7
number of electrons that can fit into orbital type 2 6 10 14
number of electrons that can fit into orbital type 2 6 10 14
Notice that the number of orbitals increases by "2" in going from one type to another. The capacity for electrons increases by "4" at the same time.
Exercise:
How many "g" orbitals would you predict? Answer: There should be 9 and they could hold 18 electrons.
Number of electrons in an orbital and electron spin
Every orbital can only hold two electrons. This is linked to the magnetic character of electrons. The electrons act as though they are spinning charged particles. There are two spin directions that match the two magnetic fields created by electrons. There is a spin up field and a spin down field. Commonly the two magnetic fields and spin types are indicated by arrows. An up arrow for spin up and a down arrow for spin down. The pairing of the magnetic fields of two electrons cancels out the fields and sets the limit on the population of an orbital at two.
Maximum number of electrons in any orbital = 2
Atoms with all the electron spins paired have no magnetic character. An atom with unpaired electrons shows magnetic properties. This is the origin of the magnetic behavior of iron and nickel for example. This magnetic property gives us a way to know how the electrons are arranged in atoms. Particles with unpaired electrons are called as "free radicals". Free radicals have been linked to the aging process, mutations in DNA, and cancer.
Exercise: How many electrons can fit into all of the 3p subshell orbitals? Click here for answer.
Exercise:
How many "g" orbitals would you predict? Answer: There should be 9 and they could hold 18 electrons.
Number of electrons in an orbital and electron spin
Every orbital can only hold two electrons. This is linked to the magnetic character of electrons. The electrons act as though they are spinning charged particles. There are two spin directions that match the two magnetic fields created by electrons. There is a spin up field and a spin down field. Commonly the two magnetic fields and spin types are indicated by arrows. An up arrow for spin up and a down arrow for spin down. The pairing of the magnetic fields of two electrons cancels out the fields and sets the limit on the population of an orbital at two.
Maximum number of electrons in any orbital = 2
Atoms with all the electron spins paired have no magnetic character. An atom with unpaired electrons shows magnetic properties. This is the origin of the magnetic behavior of iron and nickel for example. This magnetic property gives us a way to know how the electrons are arranged in atoms. Particles with unpaired electrons are called as "free radicals". Free radicals have been linked to the aging process, mutations in DNA, and cancer.
Exercise: How many electrons can fit into all of the 3p subshell orbitals? Click here for answer.
i don't understand the bolded part><
ReplyDeletei think some concepts here are not in a lvl syllabus.
ReplyDeleteI am not very sure whether you are good in Maths, but if you are, maybe you will understand the concept behind it through Mathematical induction: http://en.wikipedia.org/wiki/Spin_(physics)
ReplyDeleteThe spin of the electrons is indicated by the arrows in the electron-in-the-box diagram.
Also, this topic is pretty much closely related to quantum physics. So you may need to read up what's alpha, beta and gamma emittion and etc. Because it's in our physics syllabus anyway.