Уравнение диссоциации
| К
| рК
| Ионная сила
|
Ag(CN)2-↔Ag++2CN-
| 10-21
|
|
|
Ag(CN)32-↔Ag(CN)2-+CN-
| 2 10-1
| 0,7
|
|
Ag(CN)43-↔Ag(CN)32-+CN-
| 13,49 100
| -1,13
|
|
AgHEdta2-↔Ag++HEdta3-
| 8,51 10-4
| 3,07
| 0,1
|
AgEdta3-↔Ag++Edta4-
| 4,79 10-8
| 7,32
| 0,1
|
AgNH3+↔Ag++NH3
| 4,79 10-4
| 3,32
|
|
Ag(NH3)2+↔Ag(NH3)++NH3
| 1,2 10-4
| 3,92
|
|
Ag(NH3)2+↔Ag++2NH3
| 5,89 10-8
| 7,23
|
|
Ag(S2O3)23-↔Ag++2S2O32-
| 10-14
| 14
|
|
Ag(NO2)2-↔Ag++2NO2-
| 1,8 10-3
| 2,74
| -
|
AgBr2-↔ Ag+ +2Br-
| 4,57 10-8
| 7,34
| -
|
AgBr32- ↔Ag++ 3Br-
| 10-8
|
| -
|
AgBr43-↔ Ag++ 4Br-
| 2 10-9
| 8,7
| -
|
Ag(CH3COO)2-↔ Ag++2CH3COO-
| 2,29 10-1
| 0,64
| -
|
AgC12-↔Ag++2C1-
| 9,12 10-6
| 5,04
| -
|
AgC142-↔Ag++4C1-
| 5,01 10-6
| 5,03
| -
|
AgI2-↔Ag++2I-
| 1,82 10-12
| 11,73
| -
|
AgI32-↔Ag++3I-
| 2,09 10-14
| 13,67
| -
|
AgI43-↔Ag++4I-
| 7,94 10-14
| 13,1
| -
|
Ag(IO3)2-↔Ag++2IO3-
| 1,26 10-2
| 1,90
| -
|
Ag(SCN)2- ↔Ag++2SCN-
| 5,89 10-9
| 8,23
| -
|
Ag(SCN)3-2↔Ag++3SCN-
| 2,82 10-10
| 9,56
| -
|
Ag(SCN)4-3↔Ag++4SCN-
| 7,9 10-11
| 10,1
| -
|
Ag(NH2OH)+↔Ag++NH2OH
| 1,3 10-2
| 1,89
| -
|
Ag(NH2OH)2+↔Ag++2NH2OH
| 1,3 10-5
| 4,89
| -
|
Ag(OH)2-↔Ag++2OH-
| 10-4
|
| -
|
Ag(OH)3-2↔Ag++3OH-
| 6,3 10-6
| 5,2
| -
|
Ag(SO4)-↔Ag++SO42-
| 2,04 10-1
| 0,69
| -
|
Ag(SO4)2 3-↔Ag++2SO42-
| 3,16 10-1
| 0,5
| -
|
Ag(SO4)3 5-↔Ag++3SO42-
| 1,26 10-1
| 0,9
| -
|
A1F2+↔A13++F-
| 7,41 10-7
| 6,13
| 0,53
|
A1F2+↔A1F2++F-
| 9,55 10-6
| 5,02
| 0,53
|
Уравнение диссоциации
| К
| рК
| Ионная сила
|
A1F3↔A1F2++F-
| 1,41 10-4
| 3,85
| 0,53
|
A1F4-↔A1F3+F-
| 1,82 10-3
| 2,74
| 0,53
|
A1F52-↔A1F4-+F-
| 2,40 10-2
| 1,62
| 0,53
|
A1F63-↔A1F5-+F-
| 3,39 10-1
| 0,47
| 0,53
|
A1F63-↔A13++6F-
| 1,45 10-20
| 19,84
| 0,53
|
A12(OH)24+↔2A13++2OH-
| 1,86 10-22
| 21,73
|
|
A1OH2+↔A13++OH-
| 10-9
| 9,00
|
|
A1(Ox)33-↔A1(Ox)2-+Ox2-
| 5,0 10-4
| 3,30
|
|
A1Sal+↔A13++Sal2-
| 10-14
| 14,00
|
|
А1(Ох)2-↔А13++2Ох2-
| 10-13
|
|
|
A1(OH)4-↔A13++4OH-
| 10-33
|
| -
|
A1(SO4)+↔A13++SO42-
| 7,9 10-6
| 5,1
| -
|
Au(CN)2-↔Au++2CN-
| 5,01 10-39
| 38,30
|
|
Au(CN)43-↔Au++4CN-
| 10-56
|
| -
|
AuC14-↔Au3++4C1-
| 5,0 10-22
| 21,30
|
|
AuC12-↔Au3++2C1-
| 3,8 10-10
| 9,4
| -
|
Au(NH3)2+↔Ag++ 2NH3
| 10-27
|
| -
|
BaCit-↔Ba2++Cit3-
| 1,45 10-3
| 2,84
|
|
BaHEdta-↔Ba2++HEdta3-
| 8,51 10-3
| 2,07
| 0,1
|
BaEdta2-↔Ba2++Edta4-
| 1,66 10-8
| 7,78
| 0,1
|
BaOH+↔Ba2++OH-
| 2,29 10-1
| 0,64
|
|
BaTart↔Ba2++Tart2-
| 2,88 10-3
| 2,54
|
|
Ba(NO3)+↔Ba2++NO3-
| 1,51 10-1
| 0,82
|
|
Ba(CH3COO)+↔Ba2++CH3COO-
| 7,08 10-2
| 1,15
| -
|
BeH2Cit+↔Be2++H2Cit-
| 3,98 10-2
| 1,40
| 1,15
|
BeHCit↔Be2++HCit2-
| 6,03 10-3
| 2,22
| 1,15
|
BeCit-↔Be2++Cit3-
| 3,02 10-5
| 4,52
| 1,15
|
BeOH+↔Be2++OH-
| 3,31 10-8
| 7,48
|
|
Be(OH)42-↔Be2++4OH-
| 2,69 10-19
| 18,57
|
|
Be(SO4)34-↔Be2++3SO42-
| 8,32 10-3
| 2,07
| -
|
BeF42-↔Be2++4F-
| 4,4 10-16
| 15,36
| -
|
BiOH2+↔Bi3++OH-
| 3,93 10-13
| 12,40
| 3,0
|
BiC14-↔Bi3++4C1-
| 2,5 10-6
| 5,6
| -
|
Уравнение диссоциации
| К
| рК
| Ионная сила
|
BiC16 3-↔Bi3++6C1-
| 3,8 10-7
| 6,43
|
|
BiI4-↔Bi3++4I-
| 1,12 10-15
| 14,95
|
|
BiC16-↔Bi3++6C1-
| 2,1 10-20
| 19,67
|
|
Bi(SCN)4-↔Bi3++4SCN-
| 3,89 10-4
| 3,4
|
|
Bi(SCN)63 -↔Bi3++6SCN
| 5,89 10-5
| 4,23
|
|
Bi(NO3)2+↔Bi3++NO3-
| 5,5 10-2
| 1,26
|
|
Bi(OH)4-↔Bi3++4OH-
| 6,3 10-35
| 34,2
|
|
CaH2Cit+↔Ca2++H2Cit-
| 7,08 10-2
| 1,15
|
|
CaHCit↔Ca2++HCit2-
| 8,91 10-4
| 3,05
|
|
CaCit-↔Ca2++Cit3-
| 1,26 10-5
| 4,90
|
|
CaHEdta-↔Ca2++HEdta3-
| 3,09 10-4
| 3,51
| 0,1
|
CaEdta2-↔Ca2++Edta4-
| 2,69 10-11
| 10,57
| 0,1
|
CaOH+↔Ca2++OH-
| 5,01 10-2
| 1,30
|
|
CaHSal+↔Ca2++HSal-
| 4,37 10-1
| 0,36
|
|
Ca(CH3COO)+↔Ca2++CH3COO-
| 1,05 10-1
| 0,98
|
|
CaTar↔Ca2++Tar2-
| 1,58 10-3
| 2,80
|
|
CdC1+↔Cd2++C1-
| 10-2
| 2,00
|
|
CdC12↔CdC1++C1-
| 2,0 10-1
| 0,70
|
|
CdC13-↔CdC12+C1-
| 3,89 100
| -0,59
|
|
CdC142-↔Cd2++4C1-
| 9 10-3
| 2,05
|
|
CdCN+↔Cd2++CN-
| 6,61 10-6
| 5,18
|
|
CdCN2↔CdCN++CN-
| 3,8 10-5
| 4,42
|
|
CdCN3-↔Cd(CN)2+CN-
| 4,79 10-5
| 4,32
|
|
CdCN42-↔Cd(CN)3-+CN-
| 6,46 10-4
| 3,19
|
|
CdCN42-↔Cd2++4CN-
| 7,66 10-18
| 17,11
|
|
CdHEdta-↔Cd2++HEdta3-
| 7,94 10-10
| 9,10
| 0,1
|
CdEdta2-↔Cd2++Edta4-
| 2,57 10-17
| 16,59
| 0,1
|
CdI+↔Cd2+ + I-
| 5,26 10-3
| 2,28
|
|
CdI2↔CdI++I-
| 2,29 10-2
| 1,64
|
|
CdI3-↔CdI2+I-
| 8,32 10-2
| 1,08
|
|
CdI42-↔CdI3-+I-
| 7,94 10-2
| 1,10
|
|
CdI42-↔Cd2++4I-
| 7,94 10-7
| 6,10
|
|
Cd(NH3)2+↔Cd2++NH3
| 3,09 10-3
| 2,51
|
|
Cd(NH3)22+↔ Cd(NH3)2++NH3
| 1,10 10-2
| 1,96
|
|
Уравнение диссоциации
| К
| рК
| Ионная сила
|
Cd(NH3)32+↔ Cd(NH3)22++NH3
| 5,01 10-2
| 1,30
|
|
Cd(NH3)42+↔ Cd(NH3)32++NH3
| 1,62 10-1
| 0,79
|
|
Cd(NH3)42+↔ Cd2++4NH3
| 2,75 10-7
| 6,56
|
|
Cd(NH3)62+↔ Cd2++6NH3
| 8 10-6
| 5,10
|
|
CdOH+↔Cd2++OH-
| 3,98 10-3
| 2,40
|
|
CdBr42-↔ Cd2++4Br-
| 10-4
| 3,7
|
|
Cd(CH3COO)+↔Cd2++CH3COO-
| 1,17 10-2
| 1,93
|
|
CdOx↔Cd2++Ox2-
| 2 10-4
| 4,00
|
|
Cd(N2H4)42+↔Cd2++4N2H4
| 1,29 10-4
| 3,89
| -
|
Cd(S2O3)22-↔ Cd2++2S2O32-
| 3,31 10-7
| 6,48
| -
|
Cd(OH)42-↔Cd2++4OH-
| 2,24 10-9
| 8,65
| -
|
Cd(NO3)+↔Cd2++NO3-
| 3,98 10-1
| 0,4
|
|
Cd(CNS)42-↔ Cd2++4CNS-
| 1,23 10-3
| 2,91
|
|
Cd(Ox)22-↔ CdOx +Ox2-
| 1,70 10-2
| 1,77
|
|
CoCNS+↔Co2++CNS-
| 10-3
| 3,00
|
|
Co(CNS)2↔ Co(CNS)++CNS-
| 100
| 0,00
|
|
Co(CNS)3-↔ Co(CNS)2+CNS-
| 5,0 100
| -0,70
|
|
Co(CNS)42-↔ Co(CNS)3-+CNS-
| 1,1 100
| -0,04
|
|
Co(CNS)42-↔ Co2++4CNS-
| 5,50 10-3
| 2,26
|
|
CoHEdta-↔Co2++HEdta3-
| 7,08 10-10
| 9,15
| 0,1
|
CoEdta2-↔Co2++Edta4-
| 6,17 10-17
| 16,21
| 0,1
|
CoNH32+↔Co2++NH3
| 1,02 10-2
| 1,99
|
|
Co(NH3)22+↔CoNH32++NH3
| 3,09 10-2
| 1,51
|
|
Co(NH3)32+↔Co(NH3)22++NH3
| 1,17 10-1
| 0,93
|
|
Co(NH3)42+↔Co(NH3)32++NH3
| 2,29 10-1
| 0,64
|
|
Co(NH3)52+↔Co(NH3)42++NH3
| 8,71 10-1
| 0,06
|
|
Co(NH3)62+↔Co(NH3)32++NH3
| 5,5 100
| -0,74
|
|
Co(NH3)62+↔Co2++6NH3
| 4,07 10-5
| 4,39
|
|
Co(NH3)63+↔Co3++6NH3
| 7,1 10-36
| 35,15
|
|
CoOH+↔Co2++OH-
| 3,98 10-5
| 4,40
|
|
Co(CH3COO)+↔Co2++CH3COO-
| 3,47 10-3
| 2,46
| -
|
Co(NH2OH)2+↔Co2++NH2OH
| 1,3 10-1
| 0,89
| -
|
Co(N2H4)42+↔Co2++4N2H4
| 4,57 10-4
| 3,34
| -
|
Co(OH)3-↔Co3++3OH-
| 3,2 10-11
| 10,49
| -
|
Уравнение диссоциации
| К
| рК
| Ионная сила
|
CoOx↔Co2++Ox2-
| 2,00 10-5
| 4,70
|
|
Co(Ox)22-↔CoOx+Ox2-
| 10-2
| 2,00
|
|
Co(Ox)33-↔Co2++3Ox2-
| 10-20
|
|
|
Co(Ox)34-↔Co(Ox)22-+Ox2-
| 5,50 10-2
| 1,26
|
|
Cr(OH)2+↔CrOH2++OH-
| 7,94 10-11
| 10,10
|
|
Cr(Ox)33-↔Cr3++3Ox2-
| 3,63 10-16
| 15,44
| -
|
Cr(CNS)4-↔ Cr2++4CNS-
| 10-7
|
| -
|
Cr(CNS)63-↔ Cr2++6CNS-
| 1,6 10-4
| 3,8
| -
|
Cr(OH)4-↔Cr3++4OH-
| 1,3 10-30
| 29,9
| -
|
CrOH2+↔Cr3++OH-
| 1,59 10-8
| 7,80
|
|
CuC1+↔Cu2++C1-
| 8,32 10-1
| 0,08
|
|
CuCit-↔ Cu2++ Cit3-
| 6,17 10-15
| 14,21
|
|
CuBr2-↔Cu++2Br-
| 1,3 10-6
| 5,89
|
|
Cu(CH3COO)+↔Cu2++CH3COO-
| 5,89 10-3
| 2,23
| -
|
CuC12 -↔Cu2++2C1-
| 3,2 10-6
| 5,49
| -
|
Cu(CN)2-↔Cu++2CN-
| 10-24
| 24,00
|
|
Cu(CN)32-↔Cu(CN)2-+CN-
| 2,57 10-5
| 4,59
|
|
Cu(CN)43-↔Cu(CN)32-+CN-
| 2,0 10-2
| 1,70
|
|
Cu(CN)43-↔Cu++4CN-
| 5,13 10-31
| 30,29
|
|
CuI2 -↔Cu2++2I-
| 1,6 10-9
| 8,8
|
|
Cu(IO3)+↔Cu2++IO3-
| 1,51 10-1
| 0,82
|
|
Cu(SCN)42-↔Cu2++4SCN-
| 3,02 10-7
| 6,52
|
|
CuHEdta-↔Cu2++HEdta3-
| 2,88 10-12
| 11,54
| 0,1
|
CuEdta2-↔Cu2++Edta4-
| 1,58 10-19
| 18,80
| 0,1
|
Cu(NH3)2+↔Cu2++NH3
| 1,02 10-4
| 3,99
|
|
Cu(NH3)22+↔CuNH32++NH3
| 4,57 10-4
| 3,34
|
|
Cu(NH3)32+↔Cu(NH3)22++NH3
| 1,86 10-3
| 2,73
|
|
Cu(NH3)42+↔Cu(NH3)32++NH3
| 1,07 10-2
| 1,97
|
|
Cu(NH3)42+↔Cu2++4NH3
| 9,33 10-13
| 12,03
|
|
CuOH+↔Cu2++OH-
| 10-6
| 6,00
|
|
Cu(NH3)2+↔Cu++2NH3
| 1,2 10-11
| 10,92
|
|
Cu(NH3)62+↔Cu2++6NH3
| 1,26 10-12
| 11,9
|
|
CuOx↔Cu2++Ox2-
| 6,92 10-7
| 6,16
|
|
Cu(Ox)22-↔CuOx+Ox2-
| 1,32 10-2
| 1,88
|
|
Уравнение диссоциации
| К
| рК
| Ионная сила
|
CuSal↔Cu2++Sal2-
| 2,5 10-11
| 10,60
|
|
Cu(Sal)22-↔CuSal+Sal2-
| 5,0 10-7
| 6,30
|
|
CuHSsal↔Cu2++HSsal2-
| 2,0 10-3
| 2,70
|
|
CuTart↔Cu2++Tart2-
| 10-3
| 3,00
| 1,0
|
Cu(Tart)22-↔CuTart+Tart2-
| 7,66 10-3
| 2,11
| 1,0
|
Cu(Tart)34-↔Cu(Tart)22-+Tart2-
| 2,24 10-1
| 0,65
| 1,0
|
Cu(Tart)46-↔Cu(Tart)34-+Tart2-
| 3,63 10-1
| 0,44
| 1,0
|
Cu(Tart)46-↔Cu2++4Tart2-
| 6,31 10-7
| 6,20
| 1,0
|
FeC12+↔Fe3++C1-
| 3,31 10-2
| 1,48
|
|
FeC12+↔FeC12++C1-
| 2,24 10-1
| 0,65
|
|
FeC13↔FeC12++C1-
| 10 100
| -1,00
|
|
FeHCit↔Fe2++HCit2-
| 7,59 10-3
| 2,12
| 1,0
|
FeCit-↔Fe2++Cit3-
| 8,32 10-4
| 3,08
| 1,0
|
FeHCit+↔Fe3++HCit2-
| 5,0 10-7
| 6,30
| 1,0
|
Fe(CN)64-↔Fe2++6CN-
| 10-24
| 24,00
|
|
Fe(CN)63-↔Fe3++6CN-
| 10-31
| 31,00
|
|
FeCSN2+↔Fe3++CSN-
| 9,33 10-4
| 3,03
|
|
Fe(CSN)2+↔ FeCSN2++CSN-
| 5,01 10-2
| 1,30
|
|
FeHEdta-↔Fe2++HEdta3-
| 1,38 10-7
| 6,86
| 0,1
|
FeEdta2-↔Fe2++Edta4-
| 4,68 10-15
| 14,33
| 0,1
|
FeHEdta↔Fe3++HEdta
| 6,31 10-17
| 16,20
| 0,1
|
FeCit↔Fe3++ Cit3-
| 1,41 10-12
| 11,85
| 1,0
|
FeF2+↔Fe3++F-
| 6,76 10-6
| 5,17
|
|
FeF2+↔ FeF2++F-
| 1,20 10-4
| 3,92
|
|
FeF3↔ FeF22++F-
| 1,23 10-3
| 2,91
|
|
FeF4-↔FeF3+F-
| 10-2
| -2
|
|
FeOH+↔Fe2++OH-
| 2,00 10-6
| 5,70
|
|
FeOH2+↔Fe3++OH-
| 1,48 10-12
| 11,83
|
|
Fe(OH)2+↔FeOH2++OH-
| 1,82 10-11
| 10,74
|
|
FeOx+↔Fe3++Ox2-
| 4,0 10-10
| 9,40
|
|
Fe(Ox)2-↔FeOx++Ox2-
| 1,6 10-7
| 6,80
|
|
Fe(Ox)33-↔ Fe(Ox)2-+Ox2-
| 10-4
| 4,00
|
|
Fe(Ox)33-↔ Fe3++3Ox2-
| 6,3 10-21
| 20,20
|
|
FeSal+↔Fe3++Sal2-
| 1,51 10-16
| 15,82
|
|
Уравнение диссоциации
| К
| рК
| Ионная сила
|
Fe(Sal)2-↔ FeSal++Sal2-
| 2,14 10-12
| 11,67
|
|
Fe(Sal)33-↔ Fe(Sal)2-+Sal2-
| 1,51 10-8
| 7,82
|
|
FeSsal↔Fe3++Ssal3-
| 2,29 10-15
| 14,64
| 0,25
|
Fe(Ssal)23-↔ FeSsal+Ssal3-
| 2,28 10-11
| 10,54
| 0,25
|
Fe(Ssal)36-↔ Fe(Ssal)23-+Ssal3-
| 1,15 10-7
| 6,94
| 0,25
|
FeEdta-↔Fe3++ Edta4-
| 7,94 10-26
| 25,10
| 0,1
|
GaEdta-↔Ga3++Edta4-
| 5,37 10-21
| 20,27
| 0,1
|
HgBr42-↔Hg2++4Br2-
| 10-21
|
|
|
HgC1+↔Hg2++C1-
| 1,82 10-7
| 6,74
|
|
HgC12↔HgC1++C1-
| 3,31 10-7
| 6,48
|
|
HgC13-↔HgC12+C1-
| 1,12 10-1
| 0,95
|
|
HgC142-↔HgC13-+C1-
| 8,91 10-2
| 1,05
|
|
HgC142-↔Hg2++4C1-
| 6,03 10-16
| 15,22
|
|
HgCN+↔Hg2++CN-
| 10-18
| 18,00
|
|
Hg(CN)2↔HgCN++CN-
| 2,00 10-17
| 16,70
|
|
Hg(CN)3-↔HgCN2+CN-
| 1,48 10-4
| 3,83
|
|
Hg(CN)42-↔HgCN3-+CN-
| 1,05 10-3
| 2,98
|
|
Hg(CN)42-↔Hg2++4CN-
| 3,02 10-42
| 41,52
|
|
Hg(CNS)42-↔Hg2++4CNS-
| 1,29 10-22
| 21,89
|
|
HgHEdta-↔Hg2++HEdta3-
| 2,51 10-15
| 14,60
| 0,1
|
HgEdta2-↔ Hg2++Edta4-
| 1,58 10-22
| 21,80
| 0,1
|
HgI+↔Hg2++I-
| 1,35 10-13
| 12,87
|
|
HgI2↔HgI++I-
| 1,12 10-11
| 10,95
|
|
HgI3-↔HgI2+I-
| 2,14 10-4
| 3,67
|
|
HgI42-↔HgI3-+I-
| 4,27 10-3
| 2,37
|
|
HgI42-↔Hg2++4I-
| 1,38 10-30
| 29,86
|
|
InEdta-↔In3++Edta4-
| 1,12 10-25
| 24,95
| 0,1
|
MgHEdta-↔Mg2++HEdta3-
| 5,25 10-3
| 2,28
| 0,1
|
MgEdta2-↔Mg2++Edta4-
| 2,04 10-9
| 8,69
| 0,1
|
MgNH32+↔Mg2++NH3
| 5,89 10-1
| 0,23
| 2,0
|
Mg(NH3)22+↔MgNH32++NH3
| 1,41 100
| -0,15
| 2,0
|
MgOH+↔Mg2++OH-
| 2,63 10-3
| 2,58
|
|
MgOx↔Mg2++Ox2-
| 3,72 10-4
| 3,43
|
|
Уравнение диссоциации
| К
| рК
| Ионная сила
|
Mg(Ox)22-↔ MgOx+Ox2-
| 8,91 10-2
| 1,05
|
|
MgHTart+↔Mg2++HTart-
| 1,20 10-1
| 0,92
| 0,2
|
MgTart↔Mg2++Tart2-
| 4,37 10-2
| 1,36
| 0,2
|
MnHEdta-↔Mn2++HEdta3-
| 1,26 10-7
| 6,90
| 0,1
|
MnEdta2-↔Mn2++Edta4-
| 9,12 10-18
| 14,04
| 0,1
|
MnOH+↔Mn2++OH-
| 5,01 10-4
| 3,30
|
|
MnOx↔Mn2++Ox2-
| 1,51 10-4
| 3,82
|
|
Mn(Ox)22-↔ MnOx+Ox2-
| 3,72 10-2
| 1,43
|
|
Ni(CN)42-↔Ni2++4CN-
| 10-22
| 22,00
|
|
NiHEdta-↔Ni2++HEdta3-
| 2,75 10-12
| 11,56
| 0,1
|
NiEdta2-↔Ni2++Edta4-
| 2,40 10-19
| 18,62
| 0,1
|
NiNH32+↔Ni2++NH3
| 2,14 10-3
| 2,67
|
|
Ni(NH3)22+↔ NiNH32++NH3
| 7,59 10-3
| 2,12
|
|
Ni(NH3)32+↔ Ni(NH3)22++NH3
| 2,45 10-2
| 1,61
|
|
Ni(NH3)42+↔ Ni(NH3)32++NH3
| 8,51 10-2
| 1,07
|
|
Ni(NH3)52+↔ Ni(NH3)42++NH3
| 2,34 10-1
| 0,63
|
|
Ni(NH3)62+↔ Ni(NH3)52++NH3
| 1,23 100
| -0,09
|
|
Ni(NH3)62+↔ Ni2++6NH3
| 9,77 10-9
| 8,01
|
|
NiOH+↔Ni2++OH-
| 8,71 10-6
| 5,06
|
|
NiOx↔Ni2++Ox2-
| 5,0 10-6
| 5,30
|
|
Ni(Ox)22-↔NiOx+Ox2-
| 4,57 10-3
| 2,34
|
|
PbHCit↔Pb2++HCit2-
| 1,91 10-6
| 5,72
|
|
PbCit-↔Pb2++Cit3-
| 3,16 10-7
| 6,50
|
|
PbHEdta-↔Pb2++HEdta3-
| 2,45 10-11
| 10,61
| 0,1
|
PbEdta2-↔Pb2++Edta4-
| 9,12 10-19
| 18,04
| 0,1
|
PbI42-↔Pb2++4I-
| 8,9 10-5
| 4,05
|
|
PbOH+↔Pb2++OH-
| 6,03 10-7
| 6,22
|
|
PdC142-↔Pd2++4C1-
| 6,3 10-14
| 13,2
|
|
PtC142-↔Pt2++4C1-
| 10-16
|
|
|
SnOH+↔Sn2++OH-
| 1,17 10-12
| 11,93
|
|
SrHEdta-↔Sr2++HEdta3-
| 5,01 10-3
| 2,30
| 0,1
|
SrEdta2-↔Sr2++Edta4-
| 2,34 10-9
| 8,63
| 0,1
|
SrOH+↔Sr2++OH-
| 1,10 10-1
| 0,96
|
|
Уравнение диссоциации
| К
| рК
| Ионная сила
|
TiOEdta2-↔TiO2++Edta4-
| 5,0 10-18
| 17,30
| 0,1
|
TlBr4-↔Tl3++4Br-
| 1,3 10-24
| 23,9
|
|
TlC14-↔Tl3++4C1-
| 4,0 10-19
| 18,4
|
|
Zn(CN)42-↔Zn2++4CN-
| 10-16
| 16,00
|
|
Zn(CNS)42-↔Zn2++4CNS-
| 5,0 10-2
| 1,30
|
|
ZnEdta2-↔Zn2++Edta4-
| 3,16 10-17
| 16,50
| 0,1
|
ZnNH32+↔Zn2++NH3
| 6,61 10-3
| 2,18
|
|
Zn(NH3)22+↔ ZnNH32++NH3
| 5,62 10-3
| 2,25
|
|
Zn(NH3)32+↔ Zn(NH3)22++NH3
| 4,9 10-3
| 2,31
|
|
Zn(NH3)42+↔ Zn(NH3)32++NH3
| 1,1 10-2
| 1,96
|
|
Zn(NH3)42+↔ Zn2++4NH3
| 2,00 10-9
| 8,70
|
|
ZnOH+↔Zn2++OH-
| 2,00 10-6
| 5,70
|
|
Zn(OH)42-↔Zn2++4OH-
| 7,08 10-16
| 15,15
|
|
ZnOx↔Zn2++Ox2-
| 10-5
| 5,00
|
|
Zn(Ox)22-↔ ZnOx+Ox2-
| 4,37 10-3
| 2,36
|
|
ZnHTart+↔Zn2++HTart-
| 3,63 10-2
| 1,44
| 0,2
|
ZnTart↔Zn2++Tart2-
| 2,09 10-3
| 2,68
| 0,2
|
ZrF3+↔Zr4++F-
| 1,15 10-9
| 8,94
|
|