Tin Sn

Tin is the 50 element in periodic table situated in 5 period.

Symbol	Sn
Number	50
Atomic weight	118.7100000
Latin name	Stannum
English name	Tin

How to build an electronic configuration by yourself? See link

Electronic configuration of of Tin

Sn: 1s² 2s² 2p⁶ 3s² 3p⁶ 4s² 3d¹⁰ 4p⁶ 5s² 4d¹⁰ 5p²

Short notation:
Sn: [Kr]5s² 4d¹⁰ 5p²

Same electronic configuration has an atom of Tin and Te⁺², I⁺³, Xe⁺⁴

The order of filling the shells with electrons of Tin (Sn): 1s → 2s → 2p → 3s → 3p → 4s → 3d → 4p → 5s → 4d → 5p → 6s → 4f → 5d → 6p → 7s → 5f → 6d → 7p.

On the sub level ‘s’ there might be 2 electrons at most, on ‘p’ - up to 6, on ‘d’ - up to 10 and up to 14 on ‘f’

Tin has 50 electrons, let's fill electronic layers in described order:

2 electrons on 1s-sub level

2 electrons on 2s-sub level

6 electrons on 2p-sub level

2 electrons on 3s-sub level

6 electrons on 3p-sub level

2 electrons on 4s-sub level

10 electrons on 3d-sub level

6 electrons on 4p-sub level

2 electrons on 5s-sub level

10 electrons on 4d-sub level

2 electrons on 5p-sub level

Oxidation state of Tin

Atoms of Tin in compounds have an oxidation state of 4, 2, -4.

The oxidation state is the conditional charge of an atom in a compound: the bond in a molecule between atoms is based on the sharing of electrons, thus, if the atom’s charge virtually increases, then the oxidation state is negative (electrons carry a negative charge), if the charge decreases, then the oxidation state is positive.

Ions of Tin

Sn ⁴⁺

Sn ²⁺

Sn ^4-

Sn ⁰

Valence of Sn

Atoms of Tin in compounds have valence IV, II.

Valence of Tin is an ability of an atom Sn to build chemical bounds. The valence is based on electronic configuration of atom: electrons participated in chemical bounds are known as valence electrons. In general the valence is:

The number of possible chemical bounds with other atoms

The valence has no sign.

Quantum numbers Sn

Quantum numbers are defined by the last electron in configuration, for an atom Sn these numbers are N = 5, L = 1, M_l = 0, M_s = +½

Filling an electronic configuration (gif):

Result:

Ionization energy

The closer the electron is to the center of the atom, the more energy is needed to tear it off. The energy spent on removing an electron from an atom is called ionization energy and is designated E_o. Unless otherwise stated, the ionization energy is the energy of removal of the first electron, and there are also ionization energies for each subsequent electron.

Ionization energy of Sn:
E_o = 709 kJ/mol

— What is an ion read in article.

See all elements of the periodic table

Where is Sn in the periodic table?

Periodic Table

1.008

4.003

6.938

9.012

10.806

12.01

14.006

15.999

18.998

20.18

22.99

24.304

26.982

28.084

30.974

32.059

35.446

39.948

39.098

40.078

44.956

47.867

50.942

51.996

54.938

55.845

58.933

58.693

63.546

65.38

69.723

72.63

74.922

78.971

79.901

83.798

85.468

87.62

88.906

91.224

92.906

95.95

101.07

102.906

106.42

107.868

112.414

114.818

118.71

121.76

127.6

126.904

131.293

132.905

137.327

138.905

﹡

178.49

180.948

183.84

186.207

190.23

192.217

195.084

196.967

200.592

204.382

207.2

208.98

﹡

104

105

106

107

108

109

110

111

112

113

114

115

116

117

118

﹡6﹡

140.116

140.908

144.242

150.36

151.964

157.25

158.925

162.5

164.93

167.259

168.934

173.045

174.967

﹡7﹡

232.038

231.036

238.029

100

101

102

103

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