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Quantum numbers
1. QUANTUM NUMBERS The numbers used for completely characterizing each electron of atom are known as “quantum numbers”. Four such quantum numbers are found to be necessary for describing an electron completely. Principal quantum number Azimuthal quantum number Magnetic quantum number Spin quantum number
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4. Higher the principal quantum number, greater is its distance from the nucleus, greater is its size and also higher is its energy.
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6. This number denotes the sub-level (orbital) to which the electron belongs and also determines the shape of the orbital and the energy associated with the angular momentum of the electron.
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11. This quantum number determines the preferred orientations of orbitals in space.
13. The value of m is dependent upon the value of l and can take only integral value from +l to -l through zero.
14. In general, for each value of l there will be (2l+1) values of m.For l=0 (s sub-shell), m=1; i.e., 0. Hence there is only one orientation for the s sub-shell. For l=1 (p sub-shell), m=3; i.e.; -1, 0, +1. Hence three orientations are possible for the p sub-shell. The three corresponding orbitals are written as px, py and pz. For l=2 (d sub-shell), m=5; i.e.; -2, -1, 0, +1, +2. Hence d sub-shell can have five different orientations, and orbitals corresponding to these are dxy, dyz, dzx, dx2-y2, and dz2. For l=3 (f sub-shell), m=7; i.e.; -3, -2, -1, 0, 1, 2, 3. Hence seven f orbitals are possible.
17. This spin can be clockwise represented by +1/2 or ; or anticlockwise represented by -1/2 or .
18. In case the two electrons possess the same sign of spin quantum number, these are known to have parallel spin or , while the two electrons having the opposite sign of spin quantum number are known to have antiparallel, opposite or paired up spins( ).
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20. The set of four quantum numbers for the two electrons of helium are as shown below: n l m s 1 0 0 +1/2 1 0 0 -1/2 The set of quantum numbers for the third electron of lithium are as follows: n l m s 2 0 0 +1/2
21. Relationship between the various Quantum numbers The first shell’s {1st principal energy level (n=1)} azimuthal quantum number (l)= (n-1)=0. It therefore has one sub-level i.e. 1s. Its sub-level has one orbital and therefore has magnetic quantum number (m)= (-l,…,0,…+l)=0 The second shell’s {2nd principal energy level (n=2)} azimuthal quantum number (l)=from 0 to (n-1)=1 i.e. o (2s) and 1 (2p). It therefore has two sub-levels, i.e. 2s and 2p (total = 2).Its 2s sub-level has one orbital {magnetic quantum number (m)=0}. Its 2p orbital has three orbitals {magnetic quantum number (m) = -1, 0, +1 }. The second sub-shell, therefore has two sub-levels which have total fourorbitals [=n2 =22 =4]. The third shell’s {3rd principal energy level (n=3)} azimuthal quantum number (l)=0 to 2 i.e. 0(3s), 1(3p), 2(3d). It therefore has total three sub-levels. Its 3s sub-level has one orbital {magnetic quantum number (m)=0}. Its 3p sub-level has three orbitals {magnetic quantum number (m)=-1, 0, +1}. Its 3d sub-level has five orbitals {magnetic quantum number (m)= -2, -1, 0, +1, +2}. The third sub-level therefore has three sub-levels which have total nine orbitals [=n2 =32 =9]. The fourth shell’s {3rd principal energy level (n=4)} azimuthal quantum number (l)=from 0 to 3 i.e. 0 (4s), 1(4p), 2(4d), 3(4f). It therefore has total four sub-levels. Its 4s sub-level has one orbital {magnetic quantum number (m)=0}. Its 4p sub-level has three orbitals {magnetic quantum number (m)=-1, 0, +1}. Its 4d sub-level has five orbitals {magnetic quantum number (m)= -2, -1, 0, +1, +2}.Its 4f sub-level has seven orbitals {magnetic quantum number (m)= -3, -2, -1, 0, +1, +2, +3}.The fourth sub-level therefore has four sub-levels which have total sixteenorbitals [n2 =42 =16]
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26. The maximum number of electrons in n principal quantum number is given by 2n2 For a given value of the principal quantum number n, the azimuthal quantum number l may have all integral values from 0 to (n-1) The maximum number of electrons which can be held by these sub-levels is given by 2(2l+1). In general, for each value of l there will be (2l+1) values of m For l=2 (d sub-shell), m=5; i.e.; -2, -1, 0, +1, +2. Hence d sub-shell can have five different orientations, and orbitals corresponding to these are dxy, dyz, dzx, dx2-y2, and dz2.