Ionization Energy Of Fluorine



A Fluorine atom, for example, requires the following ionization energy to remove the outermost electron. F + IE → F + + e − IE = 17.4228 eV. The ionization energy associated with removal of the first electron is most commonly used. The nth ionization energy refers to the amount of energy required to remove an electron from the species with.

  1. The second ionization energy of aluminum is larger than the first, and the third ionization energy is even larger. Although it takes a considerable amount of energy to remove three electrons from an aluminum atom to form an Al 3+ ion, the energy needed to break into the filled-shell configuration of the Al 3+ ion is astronomical.
  2. It is because of the shielding effect that the ionization energy decreases from top to bottom within a group. From this trend, Cesium is said to have the lowest ionization energy and Fluorine is said to have the highest ionization energy (with the exception of Helium and Neon).

These tables list values of molar ionization energies, measured in kJ⋅mol−1. This is the energy per mole necessary to remove electrons from gaseous atoms or atomic ions. The first molar ionization energy applies to the neutral atoms. The second, third, etc., molar ionization energy applies to the further removal of an electron from a singly, doubly, etc., charged ion. For ionization energies measured in the unit eV, see Ionization energies of the elements (data page). All data from rutherfordium onwards is predicted.

1st–10th ionisation energies[edit]

numbersymbolname1st2nd3rd4th5th6th7th8th9th10th
1Hhydrogen1312.0
2Hehelium2372.35250.5
3Lilithium520.27298.111,815.0
4Beberyllium899.51757.114,848.721,006.6
5Bboron800.62427.13659.725,025.832,826.7
6Ccarbon1086.52352.64620.56222.737,83147,277.0
7Nnitrogen1402.328564578.17475.09444.953,266.664,360
8Ooxygen1313.93388.35300.57469.210,989.513,326.571,33084,078.0
9Ffluorine1681.03374.26050.48407.711,022.715,164.117,86892,038.1106,434.3
10Neneon2080.73952.36122937112,17715,23819,999.023,069.5115,379.5131,432
11Nasodium495.845626910.3954313,35416,61320,11725,49628,932141,362
12Mgmagnesium737.71450.77732.710,542.513,63018,02021,71125,66131,65335,458
13Alaluminium577.51816.72744.811,57714,84218,37923,32627,46531,85338,473
14Sisilicon786.51577.13231.64355.516,09119,80523,78029,28733,87838,726
15Pphosphorus1011.819072914.14963.66273.921,26725,43129,87235,90540,950
16Ssulfur999.62252335745567004.38495.827,10731,71936,62143,177
17Clchlorine1251.2229838225158.66542936211,01833,60438,60043,961
18Arargon1520.62665.8393157717238878111,99513,84240,76046,186
19Kpotassium418.83052442058777975959011,34314,94416,963.748,610
20Cacalcium589.81145.44912.46491815310,49612,27014,20618,19120,385
21Scscandium633.11235.02388.67090.6884310,67913,31015,25017,37021,726
22Tititanium658.81309.82652.54174.6958111,53313,59016,44018,53020,833
23Vvanadium650.91414283045076298.712,36314,53016,73019,86022,240
24Crchromium652.91590.62987474367028744.915,45517,82020,19023,580
25Mnmanganese717.31509.0324849406990922011,50018,77021,40023,960
26Feiron762.51561.9295752907240956012,06014,58022,54025,290
27Cocobalt760.41648323249507670984012,44015,23017,95926,570
28Ninickel737.11753.033955300733910,40012,80015,60018,60021,670
29Cucopper745.51957.9355555367700990013,40016,00019,20022,400
30Znzinc906.41733.338335731797010,40012,90016,80019,60023,000
31Gagallium578.81979.329636180
32Gegermanium7621537.53302.144119020
33Asarsenic947.0179827354837604312,310
34Seselenium941.020452973.741446590788014,990
35Brbromine1139.921033470456057608550994018,600
36Krkrypton1350.82350.4356550706240757010,71012,13822,27425,880
37Rbrubidium403.026333860508068508140957013,12014,50026,740
38Srstrontium549.51064.2413855006910876010,23011,80015,60017,100
39Yyttrium6001180198058477430897011,19012,45014,11018,400
40Zrzirconium640.112702218331377529500
41Nbniobium652.11380241637004877984712,100
42Momolybdenum684.315602618448052576640.812,12513,86015,83517,980
43Tctechnetium70214702850
44Ruruthenium710.216202747
45Rhrhodium719.717402997
46Pdpalladium804.418703177
47Agsilver731.020703361
48Cdcadmium867.81631.43616
49Inindium558.31820.727045210
50Sntin708.61411.82943.03930.37456
51Sbantimony8341594.924404260540010,400
52Tetellurium869.31790269836105668682013,200
53Iiodine1008.41845.93180
54Xexenon1170.42046.43099.4
55Cscaesium375.72234.33400
56Babarium502.9965.23600
57Lalanthanum538.110671850.348195940
58Cecerium534.410501949354763257490
59Prpraseodymium5271020208637615551
60Ndneodymium533.1104021303900
61Pmpromethium540105021503970
62Smsamarium544.5107022603990
63Eueuropium547.1108524044120
64Gdgadolinium593.4117019904250
65Tbterbium565.8111021143839
66Dydysprosium573.0113022003990
67Hoholmium581.0114022044100
68Ererbium589.3115021944120
69Tmthulium596.7116022854120
70Ybytterbium603.41174.824174203
71Lulutetium523.513402022.343706445
72Hfhafnium658.5144022503216
73Tatantalum7611500
74Wtungsten7701700
75Rerhenium760126025103640
76Ososmium8401600
77Iriridium8801600
78Ptplatinum8701791
79Augold890.11980
80Hgmercury1007.118103300
81Tlthallium589.419712878
82Pblead715.61450.53081.540836640
83Bibismuth70316102466437054008520
84Popolonium812.1
85Atastatine899.003
86Rnradon1037
87Frfrancium380
88Raradium509.3979.0
89Acactinium499117019004700
90Ththorium587111019782780
91Paprotactinium568112818142991
92Uuranium597.6142019003145
93Npneptunium604.5112819973242
94Puplutonium584.7112820843338
95Amamericium578115821323493
96Cmcurium581119620263550
97Bkberkelium601118621523434
98Cfcalifornium608120622673599
99Eseinsteinium619121623343734
100Fmfermium627122523633792
101Mdmendelevium635123524703840
102Nonobelium642125426433956
103Lrlawrencium470142822284910
104Rfrutherfordium580139023003080
105Dbdubnium6651547237832994305
106Sgseaborgium75717332484341645625716
107Bhbohrium740169025703600473059907230
108Hshassium7301760283036404940618075408860
109Mtmeitnerium8001820290039004900
110Dsdarmstadtium9601890303040005100
111Rgroentgenium10202070308041005300
112Cncopernicium11552170316042005500
113Nhnihonium707.22309322643825638
114Flflerovium832.21600337044005850
115Mcmoscovium538.31760265046805720
116Lvlivermorium663.91330285038106080
117Tstennessine736.91435.42161.94012.95076.4
118Ogoganesson860.11560
119Uueununennium463.11700
120Ubnunbinilium563.3895–
919
121Ubuunbiunium429.4111017104270
122Ubbunbibium545109018482520

11th–20th ionisation energies[edit]

numbersymbolname11th12th13th14th15th16th17th18th19th20th
11Nasodium159,076
12Mgmagnesium169,988189,368
13Alaluminium42,647201,266222,316
14Sisilicon45,96250,502235,196257,923
15Pphosphorus46,26154,11059,024271,791296,195
16Ssulfur48,71054,46062,93068,216311,048337,138
17Clchlorine51,06857,11963,36372,34178,095352,994380,760
18Arargon52,00259,65366,19972,91882,47388,576397,605427,066
19Kpotassium54,49060,73068,95075,90083,08093,40099,710444,880476,063
20Cacalcium57,11063,41070,11078,89086,31094,000104,900111,711494,850527,762
21Scscandium24,10266,32073,01080,16089,49097,400105,600117,000124,270547,530
22Tititanium25,57528,12576,01583,28090,880100,700109,100117,800129,900137,530
23Vvanadium24,67029,73032,44686,45094,170102,300112,700121,600130,700143,400
24Crchromium26,13028,75034,23037,06697,510105,800114,300125,300134,700144,300
25Mnmanganese27,59030,33033,15038,88041,987109,480118,100127,100138,600148,500
26Feiron28,00031,92034,83037,84044,10047,206122,200131,000140,500152,600
27Cocobalt29,40032,40036,60039,70042,80049,39652,737134,810145,170154,700
28Ninickel30,97034,00037,10041,50044,80048,10055,10158,570148,700159,000
29Cucopper25,60035,60038,70042,00046,70050,20053,70061,10064,702163,700
30Znzinc26,40029,99040,49043,80047,30052,30055,90059,70067,300171,200
36Krkrypton29,70033,80037,70043,10047,50052,20057,10061,80075,80080,400
38Srstrontium31,270
39Yyttrium19,90036,090
42Momolybdenum20,19022,21926,93029,19652,49055,00061,40067,70074,00080,400

21st–30th ionisation energies[edit]

numbersymbolname21st22nd23rd24th25th26th27th28th29th30th
21Scscandium582,163
22Tititanium602,930639,294
23Vvanadium151,440661,050699,144
24Crchromium157,700166,090721,870761,733
25Mnmanganese158,600172,500181,380785,450827,067
26Feiron163,000173,600188,100195,200851,800895,161
27Cocobalt167,400178,100189,300204,500214,100920,870966,023
28Ninickel169,400182,700194,000205,600221,400231,490992,7181,039,668
29Cucopper174,100184,900198,800210,500222,700239,100249,6601,067,3581,116,105
30Znzinc179,100
36Krkrypton85,30090,40096,300101,400111,100116,290282,500296,200311,400326,200
42Momolybdenum87,00093,40098,420104,400121,900127,700133,800139,800148,100154,500

References[edit]

  • Hoffman, Darleane C.; Lee, Diana M.; Pershina, Valeria (2006). 'Transactinides and the future elements'. In Morss; Edelstein, Norman M.; Fuger, Jean (eds.). The Chemistry of the Actinide and Transactinide Elements (3rd ed.). Dordrecht, The Netherlands: Springer Science+Business Media. ISBN1-4020-3555-1. (for predictions)
  • Cotton, Simon (2006). Lanthanide and Actinide Chemistry. John Wiley & Sons Ltd.
  • Fricke, Burkhard (1975). 'Superheavy elements: a prediction of their chemical and physical properties'. Recent Impact of Physics on Inorganic Chemistry. 21: 89–144. doi:10.1007/BFb0116498. Retrieved 4 October 2013. (for predictions)
Retrieved from 'https://en.wikipedia.org/w/index.php?title=Molar_ionization_energies_of_the_elements&oldid=1019531700'

1) Which of the following order is correct for the first ionization energies of following elements? (EAMCET 2009)

1) B < Be < N < O

2) Be < B < N < O

3) B < Be < O < N

4) B < O < Be < N

Logic:

* Ionization energy, in general, increases with decrease in the atomic radius across the period from left to right. However there are exceptions.

* s-orbitals have greater penetration power than p-orbitals. Hence the removal of electrons from s-orbitals require more energy.

* The electrons in half filled orbitals are stable as they experience less repulsion. If there is another electron sharing same orbital, then they will be destabilized due to repulsion from each other.

* Above atoms belong to same period (2nd) of periodic table.

Group number2131516
Element 4Be5B7N8O
electronic configuration2s22s22p12s22p32s22p4

Solution:

* Boron, B is smaller than beryllium, Be atom. Hence we expect increase in ionization energy from Be to B.

However, Be atom has greater ionization energy than B atom. The reason is - in case of Beryllium, the last electron is in the s-orbital and in Boron, the last electron is in the p-orbital. We know that removal of electron from s-orbital requires more energy than the electron from p-orbital.

* 2s22p3 configuration is more stable than 2s22p4 due to half filled p-sublevel. The electrons in the p-orbital in N atom experience less repulsion, thus more stable and more ionization energy. Whereas in case of O atom the 4th p-electron atom can be removed more easily as it experiences more repulsion from the electrons in the p-orbitals already present. Hence nitrogen, Oxygen atom has less ionization energy than Nitrogen atom.

Conclusion:

The correct ionization energy order is: B < Be < O < N

(new) Click here to see 3d Interactive Solved Question paper

Followup Practice questions on Ionization potential

2) The first ionization potential of four consecutive elements, present in the second period of the periodic table are 8.3, 11.3, 14.5 and 13.6 eV respectively. Which one of the following is the first ionization potential (in eV) of nitrogen?

(Eamcet - 2004-M)

1) 13.6

2) 11.3

3) 8.3

4) 14.5

Logic & solution:

The ionization energies increase regularly for the first three elements. Then there is decrease in the IE value from 3rd to 4th element. This indicates, 3rd element must possess stable configuration. Hence the third element is nitrogen.

Conclusion:

The first ionization potential (in eV) of nitrogen is 14.5. The correct option is '4'.

3) The electron configuration of elements A, B and C are [He]2s1, [Ne]3s1 and [Ar]4s1 respectively. Which one of the following order is correct for the first ionization potentials (in kJ mol–1) of A, B and C?

(Eamcet - 2001-E)

1) A > B > C

2) C > B > A

3) B > C >A

4) C > A > C

Logic & solution:

The electronic configurations clearly indicate that they belong to same group of periodic table i.e. 1st group. The atomic size increases with increase in the value of principal quantum number, n of valence orbital (from 2 to 3 to 4). Hence the ionization energy decreases from A to B to C.

Conclusion:

The correct option is '1'.

4) The correct order of second ionization energies of C, N, O and F is:

(IIT JEE 1991)

1) C > N > O > F

2) O > N > F > C

3) O > F > N > C

4) F > O > N > C

Logic & solution:

The second ionization energy refers to the energy required to remove the electron from the corresponding mono-valent cation of the respective atom. The atoms: C, N, O and F belong to 2nd period of the periodic table.

Just like second ionization energy like the first IE is affected by size, effective nuclear charge, type of orbital from which the electron is being removed and electronic configuration.

It is expected to increase from left to right in the periodic table with decrease in the atomic size. However oxygen has greater second ionization energy than fluorine and also nitrogen.

Reason: Since Oxygen atom gets stable electronic configuration, 2s22p3 after removing one electron, the O+ shows greater ionization energy than F+ as well as N+.

Group number14151617
Element CNOF
electronic configuration2s22p22s22p32s22p42s22p5
After removing one electron|
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Monovalent cationC+N+O+F+
electronic configuration2s22p12s22p22s22p32s22p4
2nd IE (kJ mol-1)2352285533883375

Hence the order of second ionization energies of above elements is: O > F > N > C.

Conclusion:

The correct option is '3'.

5)The incorrect statement among the following is:

(IIT JEE 1997)

1) The first ionization potential of Al is less than the first ionization potential of Mg.

2) The second ionization potential of Mg is greater than the second ionization potential Na.

3) The first ionization potential of Na is less than the first ionization potential of Mg.

4) The third ionization potential of Mg is greater than that of Al.

Logic & solution:

The outer electronic configurations of atoms, univalent and divalent cations of elements mentioned in above statement are tabulated below.

Group number1213
Element NaMgAl
electronic configuration2s22p63s12s22p63s22s22p63s23p1
After removing one electron|
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univalent cationNa+Mg+Al+
electronic configuration2s22p62s22p63s12s22p63s2
After removing second electron|
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Divalent cationNa2+Mg2+Al2+
electronic configuration2s22p52s22p62s22p63s1

Statement-1 is correct since, the electron has to be removed from full filled s-orbital, the first ionization energy of Mg is greater than that of Al.

Statement-2 is incorrect since Na+ has now stable octet configuration(2s22p6) and requires greater energy to remove second electron than in case of Mg+.

Ionization Energy Of Fluorine

Statement-3 is correct because Mg is smaller than Na and has greater effective nuclear charge. Hence the first ionization energy of Mg is higher.

Statement-4 is also correct. It is because of stable octet configuration of Mg2+ formed after removing two electrons from Mg.

Conclusion:

The correct option is 2 ( the statement given is incorrect).

6) The first ionization potentials of Na, Mg, Al and Si are in the order:

(IIT JEE 1988)

1) Na < Mg > Al < Si

2) Na < Mg < Al > Si

3) Na > Mg > Al > Si

Successive ionization energies

4) Na > Mg > Al < Si

Logic & solution:

They belong to same period. We can expect increase in ionization energy from Na to Si. Yet, Mg has greater ionization energy than Al due to 2s22p63s2 configuration. It is more difficult to remove electron from 3s orbital than from 3p orbital since s-orbitals have greater penetration power. Moreover, Mg has stable electronic configuration with full filled 3s orbital.

Conclusion:

The correct first ionization energy order is shown in the option '1'.

7) The first ionization energy in electron volts of nitrogen and oxygen atom's are respectively given by:

(IIT JEE 1987)

a) 14.6, 13.6

b) 13.6, 14.6

c) 13.6, 13.6

d) 14.6, 14.6

Logic & solution:

Since nitrogen has greater ionization energy than oxygen, the correct option is 'a'.

8) Which of the following species has the highest ionization potential?

(EAMCET 1998-E)

1) Li+

2) Mg+

3) Al+

4) Ne

Logic & solution:

Li+ has 1s2 configuration, which is the configuration of He atom. Hence it should possess highest IP value.

Energy

Conclusion:

The correct option is '1'.

9) The set representing correct order of first ionization potential is:

(IIT JEE 2001)

1) K > Na > Li

2) Be > Mg > Ca

3) B > C > N

4) Ge > Si > C

Logic & solution:

1) K > Na > Li : Incorrect, since ionization energy decreases down the group with increase in size. These elements belong to same group (1st). The correct order of first ionization energy should be: K < Na < Li.

Li|
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ionization energy decreases down the group
|
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Na
K

2) Be > Mg > Ca : Correct. These are 2nd group elements and the order correctly reflects trend in ionization energy.

Be|
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ionization energy decreases down the group
|
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Mg
Ca

3) B > C > N: Incorrect. They belong to same period and the order should be reverse since the IP values increase from left to right in a period.

BCN
---------->
ionization energy increases

4) Ge > Si > C : Incorrect: Belong to same group (14th).The order must be in reverse.

C|
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ionization energy decreases down the group
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Si
Ge

Conclusion:

The correct option is '2'.

10) Amongst the following elements (whose electronic configurations are given below), the one having the highest ionization energy is:

(IIT JEE 1990)

a) [Ne] 3s2 3p1

b) [Ar] 3d10 4s2 4p2

c) [Ne] 3s2 3p2

d) [Ne] 3s2 3p3

Logic & solution:

Based on electronic configuration of elements, their positions in the periodic table can be assigned as shown below.

131415
Period 3[Ne] 3s2 3p1[Ne] 3s2 3p2[Ne] 3s2 3p3
Period 4[Ar] 3d10 4s2 4p2

The element with electronic configuration [Ne] 3s2 3p3 is on the extreme right and with stable 3p3 configuration (half filled sub level). Hence it should have highest IE value.

Conclusion:

The correct option is 'd'.

11) The increasing order of the first ionization enthalpies of the elements B, P, S and F (lowest first) is:

(AIEEE 2006)

a) F < S < P < B

b) P < S < B < F

c) B < P < S < F

d) B < S < P < F

Logic & solution:

13151617
Period 3B (800.6 kJ mol-1)F (1681 kJ mol-1)
Period 4P (1012 kJ mol-1)S (999.6 kJ mol-1)

Fluorine, being the smallest has the highest ionization enthalpy among the given elements.

Phosphorus has 3s23p3 configuration with half filled p-sub level. Hence it has higher IP value than Sulfur.

Ionization Energy Of Fluorine Ion

Conclusion:

The correct option is 'd'.

12) The correct order of ionization energy for the following species is:

(AdiChemistry IIT JEE NEET 2018)

1) He < Li+ < H-

2) H- < Li+ < He

3) H < Li+ < He

4) H- < He < Li+

Logic & solution:

All the species have the same electronic configuration i.e. 1s2. But theenergy required to remove the outer electron increases with decrease in the negative charge (or increase in the positive charge).

Conclusion:

The correct option is 4.

13) Which of the following atoms has the highest first ionization energy?

(IIT JEE MAIN 2016)

(1) Na

(2) K

(3) Sc

(4) Rb

Logic & solution:

Ionization Energy Of Fluorine

All the atoms, except scandium belong to alkali metals. Scandium belongs to 3rd group (II B). it is a of d-block element - a transition metal. Its atomic radius is smaller than the other given atoms. Hence it is expected to have higher ionization energy among the given options.

1 (I A)3 (II B)
Period 3Na (11) ---> [Ne] 3s1
Period 4K (19) ---> [Ar] 4s1Sc (21) ---> [Ar] 3d1 5s2
Period 5Rb (37) ---> [Kr] 5s1

Conclusion:

The correct option is 3.

IONIZATION ENERGY - FOLLOWUP PRACTICE QUESTIONS & PROBLEMS WITH ANSWERS

1) The increasing order of second ionization energies of Na, Ne, Mg and Al is __________ .

Answer: Na > Ne > Al > Mg

Information: The second ionization energies (in kJ mol-1) are: Na (4563), Ne (3963), Al (1820), Mg (1450).

2) The correct increasing order of effective nuclear charge among the elements O, F, Ne, C, N is _______ .

Answer: C < N < O < F < Ne

Explanation: On moving from left to right in the periodic table in a period, the effective nuclear charge increases.

3) Lowest IP will be shown by the element having the configuration:

A) [He] 2s2

B) [He] 2s2 2p2

C) 1s2

D) [He] 2s2 2p3

Answer: B

4) Which element in the periodic table has the highest ionization potential?

Answer: Helium (He) has the highest first ionization energy (IE1).

5) The electronic configuration with the highest ionization enthalpy is ________

Answer: 1s2.

6) Which of the following has maximum ionisation potential ?

A) F

B) Mg2+

C) He+

D) Li+

Answer: D

Information: Ionization potential values in kJ/mol: F (1680), Mg2+ (1450), He+ (5250), Li+ (7292)

7) Which of the following is the correct sequence for increasing order (i.e. smallest to largest) of first ionization energy (IE1)?

A) O > C > F

B) O > N > F

C) N > C > F

D) F > N > O

Answer: D

Ionization Energy Of Fluorine

2) What is the relation between ionization potential and effective nuclear charge experienced by an electron in nth orbit?

3) What is the general trend observed in ionization energy in alkali and alkaline earth metals?