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Ionic conductance of Er2(SO4)3

  • Rudolf Holze
Chapter
Part of the Physical Chemistry book series (volume 9B2)

Abstract

This chapter contains a tabular compilation of ionic conductance of Er2(SO4)3 at various temperatures.

Table 1.7.2

Ionic conductances of aqueous solutions

Electrolyte

k or Λ or Λ01

−1cm−1 or Ω−1mol−1cm2]

T

[K or °C]

c 2

[mol · dm−3]

k or Λ or Λ01

−1cm−1 or Ω−1mol−1cm2]

T

[K or °C]

c 2

[mol · dm−3]

Ref.

Er2(SO4)3

661.80

25 °C

0.000048

587.76

25 °C

0.000097

[54Spe]

540.06

25 °C

0.000145

477.60

25 °C

0.000242

[54Spe]

397.20

25 °C

0.000485

335.40

25 °C

0.000969

[54Spe]

302.52

25 °C

0.001454

265.62

25 °C

0.002423

[54Spe]

223.08

25 °C

0.004845

186.96

25 °C

0.009690

[54Spe]

169.02

25 °C

0.014535

144.12

25 °C

0.027400

[54Spe]

125.76

25 °C

0.048450

81.96

25 °C

0.242267

[54Spe]

437.7

25 °C

    

[54Spe]

1Conductances at infinite dilution Λ0 are printed in italics without mentioning a concentration, units are Ω−1 mol−1cm2. Molar conductances are given in italics with a concentration value, units are Ω−1 mol−1cm2. Simple conductivities are given stating the concentration, units are Ω−1 cm−1

2Concentrations are molar (units: mol · dm−3), molal concentrations are given in italics (units: mol · kg−1), other concentrations as specified

Symbols and Abbreviations

Short form

Full form

κ, Λ

ionic conductivity

T

temperature

Λ 0

ionic conductance at infinite dilution

c

molar concentration

References

  1. [54Spe]
    Spedding, F.H., Jaffee, S.: J. Am. Chem. Soc. 76 (1954) 882.CrossRefGoogle Scholar

Copyright information

© Springer-Verlag Berlin Heidelberg 2016

Authors and Affiliations

  • Rudolf Holze
    • 1
  1. 1.Technische Universität ChemnitzInstitut für ChemieChemnitzGermany

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