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we know from our experiments that, the element attained octet ( Noble gas configuration) is always stable. but why 8 is the stability no....why not any thing else..what is the physical/ electric reason for that.

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Chemistry tutor with yrs of experience in professional R&D

Most of these answers seem to be effectively saying, "8 electrons form a stable shell because the valence shell has 8 slots and a full shell is the most stable configuration," but I think the real question being asked is, "why does the valence shell have 8 slots in the first place?" Although the presence...
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Most of these answers seem to be effectively saying, "8 electrons form a stable shell because the valence shell has 8 slots and a full shell is the most stable configuration," but I think the real question being asked is, "why does the valence shell have 8 slots in the first place?" Although the presence of 8 slots is often taught as if it were a purely empirical observation (probably because, historically, it was for a long time), it can actually be derived from the axioms of quantum mechanics and the geometry of 3-dimensional space. Below is an overview of some of the relevant features of the derivation. If you solve Schroedinger's equation for an electron in the potential well of a nucleus, you can find every possible bound state that the electron could possibly have. Finding the solution involves making sure that the electron's wavefunction repeats itself at intervals that allow it to "fit" around the nucleus. By analogy, consider a wave on a length of string. It has peaks and troughs at a certain period. The goal is to find which periods (wavelengths) will "fit" on the string, such that if you bring the two ends of the string together to form a loop around the nucleus, there will be no discontinuities in the wave. The resulting waves are called harmonics: A loop is sufficient to wrap around a point in a 2 dimensional plane, but electrons and atoms exist in 3 dimensions. Hence, we have to make sure the electron's wavefunction "fits" in both of the two angular degrees of freedom around a point in 3 dimensions. The waves that "fit" around a central point in 3 dimensions are called spherical harmonics: Since there are two angular degrees of freedom around a point in 3 dimensions, it takes two numbers to identify a given solution that fits. As a result, there are a total of three numbers needed to fully identify a wavefunction solution: n: quantization in energy l (lowercase L): quantization in first angular degree of freedom m: quantization in second angular degree of freedom Purely from the math of the solution and the rules of geometry, one finds that the following rules must be satisfied in order for the solution to fit: n must be a positive integer (1, 2, 3, ...) for a given n, l can be any integer from 0 to n-1 inclusive for a given l, m can be any integer from -l to l inclusive In addition, the properties of the electron dictate that: for a given n, l, and m, there are two possible electron states: one for spin up and one for spin down Putting all these rules together, we can count the number of "slots" available for electrons to fill up a given shell. For the lowest energy shell (n=1), l can be any integer from 0 to 0. That is, it can only be 0. In turn, for l=0, m can be only -0 to 0, meaning it can also only be 0. This means there is only one allowed combination with n=1, namely the one where n=1, l=0, and m=0. Since electrons can be spin up or spin down, this means there are 2 total slots available. This is why hydrogen and helium are stable with 2 electrons -- because those 2 electrons fill the n=1 shell. For the next energy shell (n=2), l can be 0 to 1. For l=0, m can be only 0. For l=1, m can be -1, 0, or 1. This forms the following set of allowed values: n=2, l=0, m=0 n=2, l=1, m=-1 n=2, l=1, m=0 n=2, l=1, m=1 Since there are 4 allowed values, the shell has 8 slots for electrons (accounting for spin). read less
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I Assure Better Knowledge

No its not necessary that every element needs eight electron in their outermost shell to be stable,actually it follows by almost all s- and p-block elements and both the orbitals can have maximum number of eight electron(s+p=8 electrons) so that they follow it. This octet rule does not work for d- and...
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No its not necessary that every element needs eight electron in their outermost shell to be stable,actually it follows by almost all s- and p-block elements and both the orbitals can have maximum number of eight electron(s+p=8 electrons) so that they follow it. This octet rule does not work for d- and f-block elements as they show various stable oxidation states. read less
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Professional Tutor with 15 years of experience.

Thank u Every one . Umesh and Hemanth....You recognized the essence of Question more accurately. Thank for your ans... Please suggest - How can we explain( make them convince) this concept to 9th and 10th Std students...
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On completion of octet, an atom acquires minimum potential energy, but in some cases expansion of octet is also observed for example the compounds of sulphur.
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We consider 8 octave as stable configuration because this configuration belongs to inter gas which are electicaly neutral and does not react with any other element, hence other element combine to complete their octave
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Chemistry lecturer

First we need to know why bonding is occuring? when any element or particle is unstable that means if it is not completely filled with electrons or with excess of electrons then it will tend to gain or loose electrons inorder to get the nearest noble gas configuration ( which are inert since they have...
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First we need to know why bonding is occuring? when any element or particle is unstable that means if it is not completely filled with electrons or with excess of electrons then it will tend to gain or loose electrons inorder to get the nearest noble gas configuration ( which are inert since they have completely filled shells).thats why the octet configuration is the stable configuration. read less
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Professional Home Tutor For School Students with 10 Year of Teaching experience

Although the presence of 8 slots is often taught as if it were a purely empirical observation (probably because, historically, it was for a long time), it can actually be derived from the axioms of quantum mechanics and the geometry of 3-dimensional space. Below is an overview of some of the relevant...
read more
Although the presence of 8 slots is often taught as if it were a purely empirical observation (probably because, historically, it was for a long time), it can actually be derived from the axioms of quantum mechanics and the geometry of 3-dimensional space. Below is an overview of some of the relevant features of the derivation. For a more detailed account, I suggest finding a textbook on QM. If you solve Schroedinger's equation for an electron in the potential well of a nucleus, you can find every possible bound state that the electron could possibly have. Finding the solution involves making sure that the electron's wavefunction repeats itself at intervals that allow it to "fit" around the nucleus. By analogy, consider a wave on a length of string. It has peaks and troughs at a certain period. The goal is to find which periods (wavelengths) will "fit" on the string, such that if you bring the two ends of the string together to form a loop around the nucleus, there will be no discontinuities in the wave. The resulting waves are called harmonics: http://en.wikipedia.org/wiki/Har... A loop is sufficient to wrap around a point in a 2 dimensional plane, but electrons and atoms exist in 3 dimensions. Hence, we have to make sure the electron's wavefunction "fits" in both of the two angular degrees of freedom around a point in 3 dimensions. The waves that "fit" around a central point in 3 dimensions are called spherical harmonics: http://en.wikipedia.org/wiki/Sph... Since there are two angular degrees of freedom around a point in 3 dimensions, it takes two numbers to identify a given solution that fits. As a result, there are a total of three numbers needed to fully identify a wavefunction solution: n: quantization in energy l (lowercase L): quantization in first angular degree of freedom m: quantization in second angular degree of freedom Purely from the math of the solution and the rules of geometry, one finds that the following rules must be satisfied in order for the solution to fit: n must be a positive integer (1, 2, 3, ...) for a given n, l can be any integer from 0 to n-1 inclusive for a given l, m can be any integer from -l to l inclusive In addition, the properties of the electron dictate that: for a given n, l, and m, there are two possible electron states: one for spin up and one for spin down Putting all these rules together, we can count the number of "slots" available for electrons to fill up a given shell. For the lowest energy shell (n=1), l can be any integer from 0 to 0. That is, it can only be 0. In turn, for l=0, m can be only -0 to 0, meaning it can also only be 0. This means there is only one allowed combination with n=1, namely the one where n=1, l=0, and m=0. Since electrons can be spin up or spin down, this means there are 2 total slots available. This is why hydrogen and helium are stable with 2 electrons -- because those 2 electrons fill the n=1 shell. For the next energy shell (n=2), l can be 0 to 1. For l=0, m can be only 0. For l=1, m can be -1, 0, or 1. This forms the following set of allowed values: n=2, l=0, m=0 n=2, l=1, m=-1 n=2, l=1, m=0 n=2, l=1, m=1 Since there are 4 allowed values, the shell has 8 slots for electrons (accounting for spin). Copied read less
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Chemistry Home Tutor with effective Assignment series

Because 8 is the no of electrons which fill all the orbitals completely so thus making it unreactive for any kind of bond formation... This is not a perfect rule but do the charm for representative elements.... Also it has many exceptions one and best exception is hydrogen and helium which instead following...
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Because 8 is the no of electrons which fill all the orbitals completely so thus making it unreactive for any kind of bond formation... This is not a perfect rule but do the charm for representative elements.... Also it has many exceptions one and best exception is hydrogen and helium which instead following octet rule follow douplet rule... Similarly for transition we do not consider octet rule instead we use 18 electron rule.... Because in them 18 electrons are filled in the penultimate shell..... For further reference Miessler Tarr Inorganic chemistry Shriver atkins Inorganic chemistry read less
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It comes from quantum numbers s, p, d, f. When you solve for subshells , a Formula 2n^2 pops out which gives 8 on n =2. That is why 8 is a stable configuration.
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FOR 8 ELECTRON IN THE OUTERMOST ORBIT THEY ARE ELECTRICALLY INACTIVE i.e::neither donate or take electron e.g:NEON,ARGON,CRYPTON
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