1. Periodic Table of the Elements
Written by: Bill Byles -
Modified by Jeff Christopherson -

2. Groups of Elements 1A 8A H He 2A 3A 4A 5A 6A 7A Li Be B C N O F Ne Na
Alkali metals 5A
Nitrogen group H 1 2A
Alkaline earth metals 6A
Oxygen group He 2 1 1 2A
Transition metals 7A
Halogens 3A 4A 5A 6A 7A 3A
Boron group 8A
Noble gases Li 3 Be 4 B 5 C 6 N 7 O 8 F 9 Ne 10 2 2 4A
Carbon group
Hydrogen
Inner transition metals Na 11 Mg 12 Al 13 Si 14 P 15 S 16 Cl 17 Ar 18 3 3 8B 3B 4B 5B 6B 7B 1B 2B K 19 Ca 20 Sc 21 Ti 22 V 23 Cr 24 Mn 25 Fe 26 Co 27 Ni 28 Cu 29 Zn 30 Ga 31 Ge 32 As 33 Se 34 Br 35 Kr 36 4 4 Rb 37 Sr 38 Y 39 Zr 40 Nb 41 Mo 42 Tc 43 Ru 44 Rh 45 Pd 46 Ag 47 Cd 48 In 49 Sn 50 Sb 51 Te 52 I 53 Xe 54 5 5 Cs 55 Ba 56 Hf 72 Ta 73 W 74 Re 75 Os 76 Ir 77 Pt 78 Au 79 Hg 80 Tl 81 Pb 82 Bi 83 Po 84 At 85 Rn 86 6 6 * * Fr 87 Ra 88 Rf
104 Db
105 Sg
106 Bh
107 Hs
108 Mt
109 7 7 W W La 57 Ce 58 Pr 59 Nd 60 Pm 61 Sm 62 Eu 63 Gd 64 Tb 65 Dy 66 Ho 67 Er 68 Tm 69 Yb 70 Lu 71 * Ac 89 Th 90 Pa 91 U 92 Np 93 Pu 94 Am 95 Cm 96 Bk 97 Cf 98 Es 99 Fm
100 Md
101 No
102 Lr
103 W

3. Dmitri Mendeleev Russian Invented periodic table
Organized elements by properties
Arranged elements by atomic mass
Predicted existence of several unknown elements
Element 101
Dmitri Ivanovich Mendeleev (1834 – 1907)
Arranged elements by increasing atomic mass. Proposed that properties of different elements repeat at regular intervals.
1860’s proposed new arrangements of elements.
1869 Published original periodic table
Dmitri Mendeleev was the Russian chemist who invented the periodic table of the elements.
He was born in Siberia and was the youngest of 17 children.
Mendeleev missed receiving the Nobel prize in chemistry by just one vote in 1906, and died before the next year’s election.
Element 101 (discovered in 1955) was named Mendelevium in his honor.
Dmitri Mendeleev

4. H He H Li Be B C N O F Ne Na Mg Al Si P S Cl Ar K Ca Sc Ti V Cr Mn Fe
hydrogen
alkali metals
alkaline earth metals
transition metals
poor metals
nonmetals
noble gases
rare earth metals H 1 He 2 H 1 1 Li 3 Be 4 B 5 C 6 N 7 O 8 F 9 Ne 10 2 Na 11 Mg 12 Al 13 Si 14 P 15 S 16 Cl 17 Ar 18 3 K 19 Ca 20 Sc 21 Ti 22 V 23 Cr 24 Mn 25 Fe 26 Co 27 Ni 28 Cu 29 Zn 30 Ga 31 Ge 32 As 33 Se 34 Br 35 Kr 36 4 Rb 37 Sr 38 Y 39 Zr 40 Nb 41 Mo 42 Tc 43 Ru 44 Rh 45 Pd 46 Ag 47 Cd 48 In 49 Sn 50 Sb 51 Te 52 I 53 Xe 54 5 Cs 55 Ba 56 Hf 72 Ta 73 W 74 Re 75 Os 76 Ir 77 Pt 78 Au 79 Hg 80 Tl 81 Pb 82 Bi 83 Po 84 At 85 Rn 86 6 * Fr 87 Ra 88 Rf
104 Db
105 Sg
106 Bh
107 Hs
108 Mt
109 7 W La 57 Ce 58 Pr 59 Nd 60 Pm 61 Sm 62 Eu 63 Gd 64 Tb 65 Dy 66 Ho 67 Er 68 Tm 69 Yb 70 Lu 71 Ac 89 Th 90 Pa 91 U 92 Np 93 Pu 94 Am 95 Cm 96 Bk 97 Cf 98 Es 99 Fm
100 Md
101 No
102 Lr
103

5. The Periodic Table * * Lanthanides Y Y Actinides Alkaline H He Li Be B
Noble
gases
Alkaline
earth metals
Halogens 1 18 H 1 He 2 2 13 14 15 16 17 Li 3 Be 4 B 5 C 6 N 7 O 8 F 9 Ne 10 Na 11 Mg 12 3 4 5 6 7 8 9 10 11 12 Al 13 Si 14 P 15 S 16 Cl 17 Ar 18
Transition metals K 19 Ca 20 Sc 21 Ti 22 V 23 Cr 24 Mn 25 Fe 26 Co 27 Ni 28 Cu 29 Zn 30 Ga 31 Ge 32 As 33 Se 34 Br 35 Kr 36
Alkali metals Rb 37 Sr 38 Y 39 Zr 40 Nb 41 Mo 42 Tc 43 Ru 44 Rh 45 Pd 46 Ag 47 Cd 48 In 49 Sn 50 Sb 51 Te 52 I 53 Xe 54 Cs 55 Ba 56 * Hf 72 Ta 73 W 74 Re 75 Os 76 Ir 77 Pt 78 Au 79 Hg 80 Tl 81 Pb 82 Bi 83 Po 84 At 85 Rn 86 Fr 87 Ra 88 Y Rf
104 Db
105 Sg
106 Bh
107 Hs
108 Mt
109
Uun
110
Uuu
111
Uub
112
Uuq
113
Uuh
116
Uuo
118
* Lanthanides La 57 Ce 58 Pr 59 Nd 60 Pm 61 Sm 62 Eu 63 Gd 64 Tb 65 Dy 66 Ho 67 Er 68 Tm 69 Yb 70 Lu 71
Y Actinides Ac 89 Th 90 Pa 91 U 92 Np 93 Pu 94 Am 95 Cm 96 Bk 97 Cf 98 Es 99 Fm
100 Md
101 No
102 Lr
103

6. Orbitals Being Filled Groups 1 8 2 1s 1 3 4 5 6 7 1s 2s 2 2p 3 3s 3p 1s 2s 2 2p 3 3s 3p
Periods 4s 3d 4p 4 4d 5p 5 5s La 5d 6p 6 6s Ac 6d 7 7s 4f
Lanthanide series 5f
Actinide series
Zumdahl, Zumdahl, DeCoste, World of Chemistry 2002, page 345

7. METALS Metals and Nonmetals Nonmetals Metalloids H He Li Be B C N O F1 He 2 1 Li 3 Be 4 B 5 C 6
Nonmetals N 7 O 8 F 9 Ne 10 2 Na 11 Mg 12 Al 13 Si 14 P 15 S 16 Cl 17 Ar 18 3 K 19 Ca 20 Sc 21 Ti 22 V 23 Cr 24 Mn 25 Fe 26 Co 27 Ni 28 Cu 29 Zn 30 Ga 31 Ge 32 As 33 Se 34 Br 35 Kr 36 4
METALS Rb 37 Sr 38 Y 39 Zr 40 Nb 41 Mo 42 Tc 43 Ru 44 Rh 45 Pd 46 Ag 47 Cd 48 In 49 Sn 50 Sb 51 Te 52 I 53 Xe 54 5
Metalloids Cs 55 Ba 56 Hf 72 Ta 73 W 74 Re 75 Os 76 Ir 77 Pt 78 Au 79 Hg 80 Tl 81 Pb 82 Bi 83 Po 84 At 85 Rn 86 6 * Fr 87 Ra 88 Rf
104 Db
105 Sg
106 Bh
107 Hs
108 Mt
109 7 W La 57 Ce 58 Pr 59 Nd 60 Pm 61 Sm 62 Eu 63 Gd 64 Tb 65 Dy 66 Ho 67 Er 68 Tm 69 Yb 70 Lu 71 Ac 89 Th 90 Pa 91 U 92 Np 93 Pu 94 Am 95 Cm 96 Bk 97 Cf 98 Es 99 Fm
100 Md
101 No
102 Lr
103

8. Metallic Characteristic
metallic character increases
nonmetallic character increases
metallic character increases
nonmetallic character increases

9. Periodic Table s s H He H p Li Be B C N O F Ne Na Mg d Al Si P S Cl Ar1 He 2 H 1 p 1 1 Li 3 Be 4 B 5 C 6 N 7 O 8 F 9 Ne 10 2 2 Na 11 Mg 12 d Al 13 Si 14 P 15 S 16 Cl 17 Ar 18 3 3 K 19 Ca 20 Sc 21 Ti 22 V 23 Cr 24 Mn 25 Fe 26 Co 27 Ni 28 Cu 29 Zn 30 Ga 31 Ge 32 As 33 Se 34 Br 35 Kr 36 4 4 Rb 37 Sr 38 Y 39 Zr 40 Nb 41 Mo 42 Tc 43 Ru 44 Rh 45 Pd 46 Ag 47 Cd 48 In 49 Sn 50 Sb 51 Te 52 I 53 Xe 54 5 5 Cs 55 Ba 56 Hf 72 Ta 73 W 74 Re 75 Os 76 Ir 77 Pt 78 Au 79 Hg 80 Tl 81 Pb 82 Bi 83 Po 84 At 85 Rn 86 6 6 * * Fr 87 Ra 88 Rf
104 Db
105 Sg
106 Bh
107 Hs
108 Mt
109 7 7 W W f La 57 Ce 58 Pr 59 Nd 60 Pm 61 Sm 62 Eu 63 Gd 64 Tb 65 Dy 66 Ho 67 Er 68 Tm 69 Yb 70 Lu 71 * Ac 89 Th 90 Pa 91 U 92 Np 93 Pu 94 Am 95 Cm 96 Bk 97 Cf 98 Es 99 Fm
100 Md
101 No
102 Lr
103 W

10. Electron Filling in Periodic Tables s s s H
1s1 He
1s2 H
1s1 p p 1 1 Li
2s1 Be
2s2 B
2p1 C
2p2 N
2p3 O
2p4 F
2p5 Ne
2p6 2 2 Na
3s1 Mg
3s2 d d Al
3p1 Si
3p2 P
3p3 S
3p4 Cl
3p5 Ar
3p6 3 3 K
4s1 Ca
4s2 Sc
3d1 Ti
3d2 V
3d3 Cr
3d5 Mn
3d5 Fe
3d6 Co
3d7 Ni
3d8 Cu
3d10 Zn
3d10 Ga
4p1 Ge
4p2 As
4p3 Se
4p4 Br
4p5 Kr
4p6 4 4 Rb
5s1 Sr
5s2 Y
4d1 Zr
4d2 Nb
4d4 Mo
4d5 Tc
4d6 Ru
4d7 Rh
4d8 Pd
4d10 Ag
4d10 Cd
4p1 In
5p1 Sn
5p2 Sb
5p3 Te
5p4 I
5p5 Xe
5p6 5 5 Cs
6s1 Ba
6s2 Hf
5d2 Ta
5d3 W
5d4 Re
5d5 Os
5d6 Ir
5d7 Pt
5d9 Au
5d10 Hg
5d10 Tl
6p1 Pb
6p2 Bi
6p3 Po
6p4 At
6p5 Rn
6p6 6 6 * * Fr
7s1 Ra
7s2 Rf
6d2 Db
6d3 Sg
6d4 Bh
6d5 Hs
6d6 Mt
6d7 7 7 W W f f La
5d1 Ce
4f2 Pr
4f3 Nd
4f4 Pm
4f5 Sm
4f6 Eu
4f7 Gd
4f7 Tb
4f9 Dy
4f10 Ho
4f11 Er
4f12 Tm
4f13 Yb
4f14 Lu
4f114 * * Ac
6d1 Th
6d2 Pa
5f2 U
5f3 Np
5f4 Pu
5f6 Am
5f7 Cm
5f7 Bk
5f8 Cf
5f10 Es
5f11 Fm
5f14 Md
5f13 No
5f14 Lr
5f14 W W

11. Atomic Radii The atomic radius of a chemical element
is a measure of the size of its atoms, usually
the mean or typical distance from the nucleus
to the boundary of
the surrounding cloud of electrons.

12. Atomic Radii = 1 Angstrom IA IIA IIIA IVA VA VIA VIIA Li Be B C N O F Na Mg Al Si P S Cl K Ca Ga Ge As Se Br Rb Sr In Sn Sb Te I Cs Ba Tl Pb Bi
= 1 Angstrom

13. Ion
An ion is an atom or a molecule in which the total number of electrons is not equal to the total number of protons, giving the atom or molecule a net positive or negative electrical charge. Ions can be created, by either chemical or physical means, via ionization.

14. Ionic Radii
Ionic radius is the radius of an atom's ion.

15. Atomic Radii Ionic Radii = 1 Angstrom = 1 Angstrom
0.95
IA IIA IIIA IVA VA VIA VIIA
= 1 Angstrom
Li1+
Be2+
Na1+
Mg2+
Ba2+
Sr2+
Ca2+
K1+
Rb1+
Cs1+
Cl1-
N3-
O2-
F1-
S2-
Se2-
Br1-
Te2-
I1-
Al3+
Ga3+
In3+
Tl3+
IA IIA IIIA IVA VA VIA VIIA Li Na K Rb Cs Cl S P Si Al Br Se As Ge Ga I Te Sb Sn In Tl Pb Bi Mg Ca Sr Ba Be F O N C B
= 1 Angstrom

16. Ionization Energies Period H He Mg Li Be B C N O F Ne Na Mg Al Si P S
Group 1 18 H
1312
Symbol
First Ionization Energy
(kJ/mol) He
2372 1 1 Mg
738 2 13 14 15 16 17 Li
520 Be
900 B
801 C
1086 N
1402 O
1314 F
1681 Ne
2081 2 2 Na
496 Mg
738 Al
578 Si
787 P
1012 S
1000 Cl
1251 Ar
1521 3 3 3 4 5 6 7 8 9 10 11 12
Period K
419 Ca
590 Sc
633 Ti
659 V
651 Cr
653 Mn
717 Fe
762 Co
760 Ni
737 Cu
746 Zn
906 Ga
579 Ge
762 As
947 Se
941 Br
1140 Kr
1351 4 4 Rb
403 Sr
550 Y
600 Zr
640 Nb
652 Mo
684 Tc
702 Ru
710 Rh
720 Pd
804 Ag
731 Cd
868 In
558 Sn
709 Sb
834 Te
869 I
1008 Xe
1170 5 5 Cs
376 Ba
503 La
538 * Hf
659 Ta
761 W
770 Re
760 Os
839 Ir
878 Pt
868 Au
890 Hg
1007 Tl
589 Pb
716 Bi
703 Po
812 At -- Rn
1038 6 6
Linus Pauling ( ) awarded Nobel Prize in chemistry in 1954 for his 1939 text, The Nature of the Chemical Bond,
and also won the Nobel Peace Prize in 1962 for his fight to control nuclear weapons.
The greater the electronegativity of an atom in a molecule, the more strongly it attracts the electrons in a covalent bond. Fr -- Ra
509 Ac
490 y Rf -- Db -- Sg -- Bh -- Hs -- Mt -- Ds --
Uuu --
Uub --
Uut --
Uuq --
Uup --
Uuo -- 7 *
Lanthanide series Ce
534 Pr
527 Nd
533 Pm
536 Sm
545 Eu
547 Gd
592 Tb
566 Dy
573 Ho
581 Er
589 Tm
597 Yb
603 Lu
523 y
Actinide series Th
587 Pa
570 U
598 Np
600 Pu
585 Am
578 Cm
581 Bk
601 Cf
608 Es
619 Fm
627 Md
635 No
642 Lr --

17. First Ionization Energies (in kilojoules per mole)H
1312.1 He
2372.5 Li
520.3 Be
899.5 B
800.7 C
1086.5 N
1402.4 O
1314.0 F
1681.1 Ne
2080.8 Na
495.9 Mg
737.8 Al
577.6 Si
786.5 P
1011.8 S
999.7 Cl
1251.2 Ar
1520.6
Metals have low ionization energy; nonmetals have high ionization energy.
This experimental data gives evidence for:
1) effect of increasing nuclear charge
2) stability of octet
3) effect of increased radius
4) s & p sublevel in outer level
SUGGESTION: Emphasize that theories came from experimental evidence! K
418.9 Ca
589.9 Ga
578.6 Ge
761.2 As
946.5 Se
940.7 Br
1142.7 Kr
1350.8 Rb
402.9 Sr
549.2 In
558.2 Sn
708.4 Sb
833.8 Te
869.0 I
1008.7 Xe
1170.3
Smoot, Price, Smith, Chemistry A Modern Course 1987, page 188

18. First Ionization Energies (kJ/mol)p H
1312.1 He
2372.5 Li
520.3 Be
899.5 B
800.7 C
1086.5 N
1402.4 O
1314.0 F
1681.1 Ne
2080.8 Na
495.9 Mg
737.8 Al
577.6 Si
786.5 P
1011.8 S
999.7 Cl
1251.2 Ar
1520.6
Metals have low ionization energy; nonmetals have high ionization energy.
This experimental data gives evidence for:
1) effect of increasing nuclear charge
2) stability of octet
3) effect of increased radius
4) s & p sublevel in outer level
SUGGESTION: Emphasize that theories came from experimental evidence! K
418.9 Ca
589.9 Ga
578.6 Ge
761.2 As
946.5 Se
940.7 Br
1142.7 Kr
1350.8 Rb
402.9 Sr
549.2 In
558.2 Sn
708.4 Sb
833.8 Te
869.0 I
1008.7 Xe
1170.3
Smoot, Price, Smith, Chemistry A Modern Course 1987, page 188

19. Ionization Energies (kJ/mol)
Element Na Mg Al Si P S Cl Ar
1st
498
736
577
787
1063
1000
1255
1519
2nd
4560
1445
1815
1575
1890
2260
2295
2665
3rd
6910
7730
2740
3220
2905
3375
3850
3945
4th
9540
10,600
11,600
4350
4950
4565
5160
5770
5th
13,400
13,600
15,000
16,100
6270
6950
6560
7320
6th
16,600
18,000
18,310
19,800
21,200
8490
9360
8780
Ionization energy increases with the removal of each additional electron.
Metals have low ionization energy; nonmetals have high ionization energy.
This experimental data gives evidence for:
1) effect of increasing nuclear charge
2) stability of octet
3) effect of increased radius
4) s & p sublevel in outer level
SUGGESTION: Emphasize that theories came from experimental evidence!
Herron, Frank, Sarquis, Sarquis, Cchrader, Kulka, Chemistry 1996, Heath, page
Shaded area on table denotes core electrons.

20. Electron Configuration4 Be
Beryllium
Beryllium N
Name: Beryllium Symbol: Be Atomic Number: 4 Atomic Mass: amu Melting Point: °C ( °K, °F) Boiling Point: °C ( °K, °F)
What is Beryllium?
Grey metallic element of group 2 of the periodic table. Is toxic and can cause severe lung diseases and dermatitis. Shows high covalent character. It was isolated independently by F. Wohler and A.A. Bussy in 1828.
Electron Configuration
Be = 1s22s2

21. Electron Configuration6 C
Carbon
Carbon N
Name: Carbon Symbol: C Atomic Number: 6 Atomic Mass: amu Melting Point: °C ( °K, °F) Boiling Point: °C ( °K, °F)
What is Carbon?
Carbon is a member of group 14 of the periodic table. It has three allotropic forms of it, diamonds, graphite and fullerite. Carbon-14 is commonly used in radioactive dating. Carbon occurs in all organic life and is the basis of organic chemistry. Carbon has the interesting chemical property of being able to bond with itself, and a wide variety of other elements.
Electron Configuration
C = 1s22s22p2

22. Electron Configuration10 Ne
Neon
Neon N
pslawinski, wikipedia.org
Name: Neon Symbol: Ne Atomic Number: 10 Atomic Mass: amu Melting Point: °C ( °K, °F) Boiling Point: °C ( °K, °F)
What is Neon?
Colorless gaseous element of group 18 on the periodic table (noble gases). Neon occurs in the atmosphere, and comprises % of the volume of the atmosphere. It has a distinct reddish glow when used in discharge tubes and neon based lamps. It forms almost no chemical compounds. Neon was discovered in 1898 by Sir William Ramsey and M.W. Travers.
Electron Configuration
Ne = 1s22s22p6

23. Electron Configuration24 Cr
Chromium
Chromium N
Name: Chromium Symbol: Cr Atomic Number: 24 Atomic Mass: amu Melting Point: °C ( °K, °F) Boiling Point: °C ( °K, °F)
Link
What is Chromium?
Hard silvery transition element. Used in decorative electroplating. Discovered in 1797 by Vauquelin.
Electron Configuration
Cr = 1s22s22p63s23p6
4s13d5

24. Radon Gas Radon gas occurs naturally from the radioactive decay
of radium. Radium is found
in small amounts in rock.
SOURCES OF RADON
“Radon, the heaviest noble gas, was first observed as the gas produced by the radioactive element radium when it decayed. Some granites used for building houses have been found to give off tiny amounts of radon, which can accumulate in confined areas.”
Eyewitness Science “Chemistry” , Dr. Ann Newmark, DK Publishing, Inc., 1993, pg 33
Ra  Rn + radiation
Predicted fraction of homes over 4 picocuries/liter radon

25. Magnesium Mg Atomic Mass 24 amu melting point = silver gray metal
24.305 12
Magnesium
Atomic Mass 24 amu
melting point =
silver gray metal
used in flash bulbs, bombs,and flares
8th most abundant element (2.2% of Earth’s crust)
lack of Mg produces same biological effect
as alcoholism (delirium tremens)
FLASH PHOTOGRAPHY
“Magnesium metal was produced commercially from the 1860s as wire or ribbon. It readily burns in air, the metal being oxidized to magnesium oxide. The brightness of the white flame made it useful in photography to provide studio lighting.”
Eyewitness Science “Chemistry” , Dr. Ann Newmark, DK Publishing, Inc., 1993, pg 40