Chemistry - Periodic Table - Advanced PDF [PDF]
1 1 H 1.008 BarCharts, Inc.® 18 2 He 4.003 WORLD’S #1 ACADEMIC OUTLINE Hydrogen Helium 1s2 1s1 Oxidation States O
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1 1 H 1.008
BarCharts, Inc.®
18 2 He 4.003
WORLD’S #1 ACADEMIC OUTLINE
Hydrogen
Helium 1s2
1s1 Oxidation States
Oxidation States
Electroneg.
Electroneg.
1
2.2
–
–
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
37
–
–
–
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
0.75
13.60
Unstable Anion
24.59
13
2
3 Li 6.94 4 Be 9.01 Lithium
Beryllium
1s22s1
1s22s2
Oxidation States
Electroneg.
Oxidation States
0.98
2
1.57
Ionic Radius
Atomic Radius
Ionic Radius
152
(+1)76
111
(+2)45
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
0.62
5.39
Unstable Anion
9.32
Atomic Radius: given in “pm”; 1 pm = 1x10-12m
Sodium
Magnesium
[Ne]3s1
[Ne]3s2
Electron Affinity: energy released in the formation of an anion: given in “eV”
Oxidation States
Electroneg.
Oxidation States
Atomic Number: number of protons
16
17
Boron
Carbon
Nitrogen
Oxygen
Fluorine
Neon
1s22s2p1
1s22s2p2
1s22s2p3
1s22s2p4
1s22s2p5
1s22s2p6
Oxidation States
Ionic Radius: given in “pm”; 1 pm = 1x10-12m
11 Na 22.99 12 Mg 24.31
15
5 B 10.81 6 C 12.01 7 N 14.01 8 O 16.00 9 F 19.00 10 Ne 20.18
Electronegativity: Pauling scale; measures ability of atom to attract electrons in a chemical bond
Electroneg.
1 Atomic Radius
14
Oxidation States
Electroneg.
3
2.04
4,2
2.55
3.04
-2
3.44
-1
3.98
–
–
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
80
–
77
(+4)16
74
(+3)16
74
(-2)140
71
(-1)133
–
–
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
0.28
8.30
1.26
11.26
Unstable Anion
14.53
1.46
13.62
3.40
17.42
Unstable Anion
21.57
Electroneg.
Oxidation States
Electroneg.
+ – 3,5,4,2
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
13 Al 26.98 14 Si 28.09 15 P 30.97 16 S 32.07 17 Cl 35.45 18 Ar 39.95
1st Ionization Potential: energy required to remove one electron, forming a cation; given in “eV”
Aluminum
Silicon
Phosphorus
Sulfur
Chlorine
Argon
[Ne]3s2p1
[Ne]3s2p2
[Ne]3s2p3
[Ne]3s2p4
[Ne]3s2p5
[Ne]3s2p6
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
3
1.61
4
1.90
3.16
–
–
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
143
(+3)54
118
(+4)40
110
(+5)17
103
(-2)184
99
(-1)181
–
–
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
7.65
0.44
5.99
1.39
8.15
0.75
10.49
2.08
10.36
3.61
12.97
Unstable Anion
15.76
Electroneg.
1
0.93
2
1.31
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
186
(+1)102
160
(+2)72
Electron Affinity
1st Ion. Pot.
Electron Affinity
0.55
5.14
Unstable Anion
Atomic Weight: weighted average of atomic masses of natural isotopes - mass number of the most stable isotope for each radioactive element
Oxidation States
Electroneg.
Oxidation States
Electroneg.
+ – 3,5,4
2.19
+ – 2,4,6
2.58
+ – 1,3,5,7
Oxidation States
Electroneg.
4 5 6 7 8 9 3 10 11 12 19 K 39.10 20 Ca 40.08 21 Sc 44.96 22 Ti 47.87 23 V 50.94 24 Cr 52.00 25 Mn 54.94 26 Fe 55.85 27 Co 58.93 28 Ni 58.69 29 Cu 63.55 30 Zn 65.39 31 Ga 69.72 32 Ge 72.61 33 As 74.92 34 Se 78.96 35 Br 79.90 36 Kr 83.80 Potassium
Calcium
Scandium
Titanium
Vanadium
Chromium
Manganese
Iron
Cobalt
Nickel
Copper
Zinc
Gallium
Germanium
Arsenic
Selenium
Bromine
Krypton
[Ar]4s1
[Ar]4s2
[Ar]3d14s2
[Ar]3d24s2
[Ar]3d34s2
[Ar]3d54s1
[Ar]3d54s2
[Ar]3d64s2
[Ar]3d74s2
[Ar]3d84s2
[Ar]3d104s1
[Ar]3d104s2
[Ar]3d104s2p1
[Ar]3d104s2p2
[Ar]3d104s2p3
[Ar]3d104s2p4
[Ar]3d104s2p5
[Ar]3d104s2p6
Oxidation States
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
1
0.82
2
1.00
3
1.36
4
1.54
5.3
1.63
6,3,2
1.66
7,6,4,2,3
1.55
2,3
1.83
2,3
1.88
2,3
1.91
2,1
1.90
2
1.65
3
1.81
4
2.01
2.96
–
–
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
227
(+1)151
197
(+2)100
161
(+3)75
145
(+4)61
131
(+5)54
125
(+3)62
137
(+2)67
124
(+3)55
125
(+2)65
125
(+2)69
128
(+2)73
133
(+2)74
122
(+3)62
123
(+4)53
125
(+3)58
116
(-2)198
114
(-1)196
–
–
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
0.50
4.34
0.04
6.11
0.19
6.56
0.08
6.83
0.53
6.75
0.67
6.77
Unstable Anion
7.43
0.151
7.90
0.66
7.88
1.16
7.64
1.24
7.73
Unstable Anion
9.39
0.3
5.10
1.23
7.90
0.81
9.81
2.02
9.75
3.36
11.81
Unstable Anion
14.00
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
+ – 3,5
2.18
+ – 2,4,6
2.55
+ – 1,5
Oxidation States
Electroneg.
37 Rb 85.47 38 Sr 87.62 39 Y 88.91 40 Zr 91.22 41 Nb 92.91 42 Mo 95.94 43 Tc 98 44 Ru 101.1 45 Rh 102.9 46 Pd 106.4 47 Ag 107.9 48 Cd 112.4 49 In 114.8 50 Sn 118.7 51 Sb 121.8 52 Te 127.6 53 I 126.9 54 Xe 131.3 Rubidium
Strontium
Yttrium
Zirconium
Niobium
[Kr]5s1
[Kr]5s2
[Kr]4d15s2
[Kr]4d25s2
[Kr]4d45s1
Oxidation States
Cadmium
Indium
Tin
Antimony
Tellurium
Iodine
Xenon
[Kr]4d105s1
[Kr]4d105s2
[Kr]4d105s2p1
[Kr]4d105s2p2
[Kr]4d105s2p3
[Kr]4d105s2p4
[Kr]4d105s2p5
[Kr]4d105s2p6
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
0.95
3
1.22
4
1.33
5,3
1.60
6,5,4,3,2
2.16
7
2.10
2,3,4,6,8
2.20
2,3,4
2.28
2,4
2.20
1
1.93
2
1.69
3
1.78
4,2
1.96
2.66
–
2.60
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
248
(+1)161
215
(+2)126
178
(+3)102
159
(+4)84
143
(+5)64
136
(+6)59
135
–
133
(+3)68
135
(+3)67
138
(+2)64
145
(+1)115
149
(+2)95
163
(+3)80
141
(+4)45
145
(+3)76
143
(-2)221
133
(-1)220
–
–
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
0.49
4.18
0.11
5.70
0.31
6.22
0.43
6.63
0.90
6.76
0.75
7.09
0.55
7.28
1.05
7.36
1.14
7.46
0.56
8.34
1.30
7.58
Unstable Anion
8.99
0.30
5.79
1.11
7.34
1.07
8.64
1.97
9.01
3.06
10.45
Unstable Anion
12.13
Electroneg.
Oxidation States
Silver
[Kr]4d10
2
Electroneg.
Oxidation States
Palladium
[Kr]4d85s1
Atomic Radius
Electroneg.
Oxidation States
Rhodium
0.82
Electroneg.
Oxidation States
[Kr]4d75s1
Ionic Radius
Electroneg.
Oxidation States
[Kr]4d55s2
1
Electroneg.
Oxidation States
[Kr]4d55s1
Atomic Radius
Electroneg.
Oxidation States
Molybdenum Technetium Ruthenium Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
+ – 3,5
2.05
+ – 2,4,6
2.10
+ – 1,5,7
Oxidation States
Electroneg.
55 Cs 132.9 56 Ba 137.3 57 La 138.9 72 Hf 178.5 73 Ta 180.9 74 W 183.8 75 Re 186.2 76 Os 190.2 77 Ir 192.2 78 Pt 195.1 79 Au 197.0 80 Hg 200.6 81 Tl 204.4 82 Pb 207.2 83 Bi 209.0 84 Po 209 85 At 210 86 Rn 222 Cesium
Barium
Lanthanum
[Xe]6s1
[Xe]6s2
[Xe]5d16s2
Oxidation States
Tungsten
Rhenium
Osmium
Iridium
Platinum
Gold
Mercury
Thallium
Lead
Bismuth
Polonium
Astatine
Radon
Oxidation States
Electroneg.
1
0.79
2
0.89
3
1.10
4
1.3
5
1.5
6,5,4,3,2
1.7
7,6,4,2,-1
1.9
2,3,4,6,8
2.2
2,3,4,6
2.2
2,4
2.2
3,1
2.4
2,1
1.9
3,1
1.8
4,2
1.8
3,5
1.9
4,2
2.0
2.2
–
–
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
265
(+1)174
217
(+2)142
187
(+3)116
156
(+4)83
143
(+5)64
137
(+6)60
137
(+7)53
134
(+4)63
136
(+4)63
139
(+4)63
144
(+3)85
150
(+2)102
170
(+1)159
175
(+2)119
155
(+3)103
118
(+4)–
–
–
–
–
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
0.47
3.89
0.15
5.21
0.5
5.77
~0
6.83
0.32
7.89
0.86
7.98
0.15
7.88
1.10
8.7
1.57
9.1
2.13
9.0
2.31
9.23
Unstable Anion
10.44
0.2
6.11
0.36
7.42
0.95
7.29
1.9
8.42
2.8
-
Unstable Anion
10.75
Electroneg.
Oxidation States
Tantalum
Atomic Radius
Electroneg.
Oxidation States
Hafnium
[Xe]4f145d26s2 [Xe]4f145d36s2 [Xe]4f145d46s2 [Xe]4f145d56s2 [Xe]4f145d66s2 [Xe]4f145d76s2 [Xe]4f145d96s1 [Xe]4f145d106s1 [Xe]4f145d106s2 [Xe]4f145d106s2p1 [Xe]4f145d106s2p2 [Xe]4f145d106s2p3 [Xe]4f145d106s2p4 [Xe]4f145d106s2p5 [Xe]4f145d106s2p6
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
+ – 1,3,5,7
Oxidation States
Electroneg.
87 Fr 223 88 Ra 226 89 Ac 227 104 Rf 261 105 Db 262 106 Sg 266 107 Bh 264 108 Hs 269 109 Mt 268 110 Ds 281 111 Uuu 272 112 Uub 277 113 Uut 284 114 Uuq 289 115 Uup 288 116 ? [Rn]7s2
Rutherfordium
[Rn]6d17s2
[Rn]5f146d27s2 [Rn]5f146d37s2 [Rn]5f146d47s2 [Rn]5f146d57s2 [Rn]5f146d67s2 [Rn]5f146d77s2 [Rn]5f146d97s1 Darmstats, Germany disc.1981 disc.1964 disc.1967 disc.1974 disc.1984 disc.1982
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
1
0.7
2
0.9
3
1.1
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
–
–
–
(+2)162
188
(+3) -
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
0.46
–
–
5.28
–
5.17
ALKALI METALS
ALKALINE EARTH METALS
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ISBN 142320003-9 All rights reserved. No part of this publication may be reproduced or transmitted in any form, or by any means, electronic or mechanical, including photocopy, recording, or any information storage and retrieval system, without written permission from the publisher. ©2002, 2005 BarCharts, Inc.
$4.95 U.S. / $7.50 CAN REFERENCE: CRC Handbook of Chemistry and Physics • 81st edition, 2000-2001 CONTENT ADVISOR: Mark Jackson, PhD Chemistry Professor - Florida Atlantic University DESIGN / LAYOUT: John Ford, CEO Customer Hotline # 1.800.230.9522 March 2005
Dubnium
Seaborgium
Bohrium
Actinium
Hassium
Meitnerium Darmstadtium Unununium
Ununbium
? 117 ? ? 118 ? ? Ununtrium Ununquadium Ununpentium Not discovered Not discovered Not discovered
disc.1994
disc.1996
disc.2004
disc.1999
disc.2004
-
-
-
Darmstats, Germany
Darmstats, Germany
Dubna, Russia
Dubna, Russia
Dubna, Russia
-
-
-
HALOGENS
LANTHANIDE SERIES
[Rn]7s1
Radium
ACTINIDE SERIES
Francium
NOBLE GASES
58 Ce 140.1 59 Pr 140.9 60 Nd 144.2 61 Pm 145 62 Sm150.4 63 Eu 152.0 64 Gd 157.3 65 Tb 158.9 66 Dy 162.5 67 Ho 164.9 68 Er 167.3 69 Tm 168.9 70 Yb 173.0 71 Lu 175.0 Cerium [Xe]4f15d16s2 Oxidation States
Electroneg.
Praseodymium Neodymium Promethium [Xe]4f36s2 Oxidation States
Electroneg.
[Xe]4f46s2 Oxidation States
Electroneg.
[Xe]4f56s2 Oxidation States
Electroneg.
Samarium
Europium
Gadolinium
Terbium
Dysprosium
Holmium
Erbium
Thulium
Ytterbium
Lutetium
[Xe]4f66s2
[Xe]4f76s2
[Xe]4f75d16s2
[Xe]4f96s2
[Xe]4f106s2
[Xe]4f116s2
[Xe]4f126s2
[Xe]4f136s2
[Xe]4f146s2
[Xe]4f145d16s2
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
3,4
1.12
3,4
1.13
3
1.14
3
–
3,2
1.17
3,2
–
3
1.20
3,4
–
3
1.22
3
1.23
3
1.24
3,2
1.25
3,2
–
3
1.0
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
183
(+3)114
182
(+3)113
181
(+3)114
181
(+3)109
180
(+3)108
199
(+3)107
179
(+3)105
176
(+3)118
175
(+3)103
174
–
173
(+3)100
173
(+3)109
194
(+3)99
172
(+3)98
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
–
5.54
–
5.46
–
5.53
–
5.55
–
5.64
–
5.67
–
6.15
–
5.86
–
5.94
–
6.02
–
6.11
–
6.18
–
6.25
–
5.43
90 Th 232.0 91 Pa 231.0 92 U 238.0 93 Np 237 94 Pu 244 95 Am 243 96 Cm 247 97 Bk 247 98 Cf 251 99 Es 252 100Fm 257 101Md 258 102 No 259 103 Lr 262 Thorium
Protactinium
Uranium
Neptunium
Plutonium
Americium
Curium
Berkelium
[Rn]6d27s2
[Rn]5f26d17s2
[Rn]5f36d17s2
[Rn]5f46d17s2
[Rn]5f67s2
[Rn]5f77s2
[Rn]5f76d17s2
[Rn]5f97s2
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Californium Einsteinium [Rn]5f107s2 Oxidation States
Electroneg.
[Rn]5f117s2 Oxidation States
Electroneg.
Fermium
Mendelevium
Nobelium
[Rn]5f127s2
[Rn]5f137s2
[Rn]5f147s2
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Oxidation States
Electroneg.
Lawrencium [Rn]5f146d17s2 Oxidation States
Electroneg.
4
1.3
5,4
1.5
6,5,4,3
1.7
6,5,4,3
1.3
6,5,4,3
1.3
6,5,4,3
–
3
–
4,3
–
3
–
3
–
3
–
3,2
–
3,2
–
3
–
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
Atomic Radius
Ionic Radius
180
(+4)94
161
(+5)78
139
(+6)73
–
(+5)75
151
(+4)86
131
(+3)98
–
(+3)97
–
(+3)96
–
(+3)95
–
–
–
–
–
–
–
–
–
–
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
Electron Affinity
1st Ion. Pot.
–
6.08
–
5.89
–
6.19
–
6.27
–
6.06
–
5.99
–
6.02
–
6.23
–
6.30
–
6.42
–
6.50
–
6.58
–
6.65
–
–
M = Generic symbol for element in compound; E = Element raw material form; A = Alloy, blend or mixture; C = Compound; Bold = Most Important Use
NATURAL FORM
H2 gas
Li
Be
bcc
hex
Na Mg bcc
K
hex
Ca Sc
bcc
He
solid - for solid, most stable crystal form liquid gas
fcc
Rb Sr
hex
V bcc
rhom
hex
N2 O2 gas
gas
F2 Ne
Al
B
Si
P
S
fcc
fcc
cubic
ortho
Cl2 Ar
bcc
bcc
bcc
hex
fcc
fcc
hex
ortho
In
hex
hex
bcc
bcc
Cs Ba La
Hf
Ta
W
hex
bcc
bcc
bcc
Fr –
fcc
bcc
hex
Ra Ac bcc
C
gas
gas
gas
gas
Cr Mn Fe Co Ni Cu Zn Ga Ge As Se Br2 Kr
Zr Nb Mo Tc Ru Rh Pd Ag Cd
bcc
Y
Ti hex
gas
hex
hex
Re Os hex
hex
fcc
rhom
hex
Sn Sb Te
liquid
I2
gas
Xe
fcc
hex
hex
Th Pa
U
fcc
tetra
ortho
hex
Li
Be
0.53
1.85
Solid, liquid: g/cm3 (20°C and 1atm) gas: g/liter (0°C and 1atm)
Na Mg 0.97
1.74
K
Ca Sc
Ti
V
1.54
4.51
6.0
0.89
2.99
Rb Sr
7.87
8.86
tetra
tetra
rhom
4.47
6.52
8.57
10.2
Tl
Pb
Bi
Po At Rn
Cs Ba La
Hf
Ta
W
Re Os
fcc
fcc
hex
fcc
rhom
cubic
1.93
3.62
13.3
16.4
19.3
20.8
Fr
Ra Ac
fcc
liquid
ortho
–
gas
gas
rhom
bcc
hex
hex
hex
hex
hex
hex
fcc
–
hex
6.15
5.0
6.77
Th Pa
ortho
hex
11.7
hex
hex
hex
hex
–
–
–
11
6.77
Es Fm Md No Lr
mono
N2 O2
*1.43
P
S
2.70
2.33
1.82
2.07
1
Cs
F2 Ne
*1.70
*.90
Cl2 Ar
8.90
8.96
7.14
5.91
12.1
12.4
22.6
12.0
Ir 22.5
10.5
5.32
5.72
4.80
*3.21
Sn Sb Te
3.12
*1.78
I2
Xe
8.69
7.31
7.26
6.68
6.24
Pt Au Hg
Tl
Pb
Bi
Po At Rn
21.5
11.8
11.3
9.79
19.3
13.53
9.2
4.92
*3.73
–
*5.89
*9.73
Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu
10.0
Np Pu Am Cm Bk Cf
cubic = SIMPLE CUBIC, bcc = BODY CENTERED CUBIC hex = HEXAGONAL; ortho = ORTHOHOMBIC; tetra = TETRAGONAL mono = MONOCLINIC;
*1.25
Si
In
fcc
hex
C 2.26
Al
Zr Nb Mo Tc Ru Rh Pd Ag Cd
Pt Au Hg
hex
2.64
7.3
Ir
fcc
1.53
Y
B 2.34
He *.179
Cr Mn Fe Co Ni Cu Zn Ga Ge As Se Br2 Kr
7.15
fcc
Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu
fcc
DENSITY
H2
.089*
–
7.01
7.26
U
15.4
7.52
5.24
7.90
8.23
8.55
Np Pu Am Cm Bk Cf
19.1
20.2
19.7
13.6
13.5
14.8
–
8.80
9.07
9.32
6.90
9.84
Es Fm Md No Lr –
–
–
–
–
fcc = FACE CENTERED CUBIC; rhom = RHOMBOHEDRAL; – = unknown
Alkali metals; compounds with M(1+) valences Cesium
E - Photoelectric cells E - Atomic clocks, infrared lamps
2
0.90
ENTHALPY OF VAPORIZATION
Li
Be
134.7
308.8
kJ/mole Liquid ➜ Gas ∆Hvap at boiling point
Na Mg 89.04
K 77.5
128.7
Ca Sc 150.0
Rb Sr 69.2
References: CRC; The Elements, 3rd ed., J. Emsley, 1998
139.0
305.0
Y 393.0
Cs Ba La 65.9
Fr –
140.0
399.6
Ti
V
429.0
458.6
696.6
594.1
Hf
Ta
W
661.1
753.1
799.1
711.0
5.57
6.82
Al
Si
P
S
294.0
383.0
12.40
45.0
0.12
Li
Be
3.00
7.9
351.0
382.4
371.8
304.6
115.5
585.0
567.8
Re Os 707.1
627.6
495.4
Ir 563.6
393.0
255.1
99.87
Pt Au Hg 510.5
324.0
59.11
314.0
333.0
481.0
284.0
U 423.0
–
192.0
176.0
312.0
391.0
8.54
14.10
254.0
In
334.0
31.9
95.48
Sn Sb Te
226.4
290.4
67.9
114.1
Tl
Pb
Bi
162.1
179.5
151.0
29.96
I2
41.57
293.0
251.0
293.0
Ti
V
14.15
21.5
1484
2836
Rb Sr
Y
1897
4603
5458
5555
5596
Fr
Ra Ac
159.0
–
428.0
–
C - Fireworks, flourescent lamps
3
196.0
–
–
–
–
He –
B
C
50.2
117
N2 O2 0.71
0.44
Al
Si
P
S
10.71
50.21
0.66
1.72
F2 Ne
0.51
0.33
Cl2 Ar
Li
Be
181
1287
Na Mg 98
650
Ca Sc
64
842
16.2
17.48
13.26
7.32
5.59
36.94
24.44
6.69
7.03
19.87
Cs Ba La
Hf
Ta
W
Pt Au Hg
Tl
Pb
Bi
2.09
27.2
36.57
52.31
4.14
4.77
11.3
33.29
38.59
Re Os 60.43
57.85
26.59
Ir 41.12
16.74
22.17
11.30
12.55
2.29
17.49
10.57
1.64
I2
Xe
15.52
2.27
Po At Rn –
–
2.89
Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu 6.89
Th Pa 12.34
7.14
U 9.14
7.7
8.62
9.21
10.0
10.15
11.06
Np Pu Am Cm Bk Cf 3.20
2.82
14.39
15.0
–
17.0
19.9
16.84
7.66
22.0
1541
Rb Sr
Ti
V
1668
1910
–
–
–
–
-196
-183
Al
Si
P
S
2519
3265
280
445
-188
Cl2 Ar -34
2913
2562
907
4150
5012
3695
2963
Ir
2162
767
Pt Au Hg
4428
3825
2856
357
2204
In
2833
603sp
685
Sn Sb Te
-186
59
-153
I2
Xe
184
2072
2602
1587
988
Tl
Pb
Bi
Po At Rn
1473
1749
1564
962
–
3520
3074
U
–
3000
1794
1529
3273
3230
2567
Np Pu Am Cm Bk Cf
4131
–
3228
2011
3100
–
–
2700
2868
1950
1196
–
–
–
Lanthanum
4
-62
Y
3402
–
He –
C
2075
4492tp
N2 O2
-210
-219
Al
Si
P
S
660
1414
44
120
F2 Ne
-220tp
-249
Cl2 Ar
Hafnium
Hf
-102
-189
Cr Mn Fe Co Ni Cu Zn Ga Ge As Se Br2 Kr
1907
1246
1538
1495
1455
1085
420
30
939
817tp
221
-7
Zr Nb Mo Tc Ru Rh Pd Ag Cd
In
Sn Sb Te
2477
2623
2157
157
232
631
450
Cs Ba La
Hf
Ta
W
Re Os
Pt Au Hg
Tl
Pb
Bi
Po At Rn
2233
3017
3422
3186
1768
304
328
271
254
28
727
Fr
918
Ra Ac
27
700
2334
3033
1964
1555
Ir 2446
962
321
1064
-39
I2
114
302
Xe -112tp
-71
Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu
1051
798
931
1021
Th Pa
–
1750
U
1572
1042
1074
822
1313
1356
1412
Np Pu Am Cm Bk Cf
1135
644
640
1176
1345
1050
900
1474
1529
1545
819
1663
Es Fm Md No Lr 860
1527
827
827
SPECIFIC HEAT CAPACITY
H2
J/(g K) (at 25°C and 1atm)
He 5.19
Li
Be
B
C
3.58
1.83
1.03
0.71
Na Mg
Al
1.23
0.90
K 0.76
1.02
Ca Sc
Ti
V
0.65
0.52
0.49
Rb Sr 0.36
0.30
0.57
Y 0.30
P
S
0.71
0.77
0.71
0.32
Zr Nb Mo Tc Ru Rh Pd Ag Cd
In
Sn Sb Te
0.28
0.23
0.23
Pt Au Hg
Tl
0.13
0.13
–
0.24
Hf
Ta
W
Re Os
0.14
0.14
0.13
0.14
Fr
Ra Ac 0.12
Si
0.37
0.25
0.45
0.20
–
0.92
0.39
0.27
0.48
0.24
–
1.04
F2 Ne
0.82
1.03
Cl2 Ar 0.48
0.52
Cr Mn Fe Co Ni Cu Zn Ga Ge As Se Br2 Kr
0.45
Cs Ba La 0.20
N2 O2
0.13
0.42
0.24
Ir 0.13
0.44
0.25
0.39
0.24
0.13
0.23
0.14
0.33
0.32
1627
6
0.19
Th Pa 0.11
–
0.19
U 0.12
–
0.20
0.18
0.24
0.18
0.17
Np Pu Am Cm Bk Cf –
–
–
–
–
–
2.37
1.49
0.002
K
1.56
Ca Sc
Ti
V
2.01
0.22
0.31
Rb Sr
0.16
0.58
Bi
Po At Rn
0.12
0.16
1.41
Xe
0.13
0.17
P
I2
Pb
0.17
Si
1.03
0.15
–
0.09
Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu 0.19
Al
0.16
0.16
Y
0.35
0.17
0.41
0.60
Zr Nb Mo Tc Ru Rh Pd Ag Cd
In
Sn Sb Te
0.23
0.82
0.67
Pt Au Hg
Tl
0.72
0.46
–
–
–
0.51
1.00
1.17
Hf
Ta
W
Re Os
0.58
1.74
0.48
Fr
Ra Ac –
0.88
0.91
1.50
0.23
0.72
Ir 1.47
4.01
4.29
3.17
0.97
0.08
0.50
0.11
0.13
0.17
Th Pa
–
0.54
U
–
0.15
0.13
0.14
0.10
0.11
0.11
Np Pu Am Cm Bk Cf
0.28
0.06
0.07
–
–
H
He
1400
0.008
Li
Be
B
C
N
O
F
Ne
20
2.8
10
200
19
461000
585
0.005
Al
Si
P
S
Cl
Ar
1050
350
mg of element per kg of crust
Na Mg 23600 23300
K
82300 282000
Ca Sc
145
3.5
Ti
V
Cr Mn Fe Co Ni Cu Zn Ga Ge As Se Br
Kr
120
102
20900 41500
22
5650
Rb Sr
Y
Zr Nb Mo Tc Ru Rh Pd Ag Cd
In
33
165
20
1.2
0.25
2.3
Hf
Ta
W
Re Os
Ir
Tl
Pb
3
2
1.3