knowrohit07/gita_dataset · Datasets at Hugging Face

Chapter stringclasses 18 values	sentence_range stringlengths 3 9	Text stringlengths 7 7.34k
1	105-108	056 ´ 10-3 quart 1 cubic foot = 28 316 litres = 29 902 quarts = 7 475 gallons Common Units of Energy 1 joule = 1 ´´´´´ 107 ergs 1 thermochemical calorie** = 4
1	106-109	316 litres = 29 902 quarts = 7 475 gallons Common Units of Energy 1 joule = 1 ´´´´´ 107 ergs 1 thermochemical calorie** = 4 184 joules = 4
1	107-110	902 quarts = 7 475 gallons Common Units of Energy 1 joule = 1 ´´´´´ 107 ergs 1 thermochemical calorie** = 4 184 joules = 4 184 ´ 107 ergs = 4
1	108-111	475 gallons Common Units of Energy 1 joule = 1 ´´´´´ 107 ergs 1 thermochemical calorie** = 4 184 joules = 4 184 ´ 107 ergs = 4 129 ´ 10–2 litre-atmospheres = 2
1	109-112	184 joules = 4 184 ´ 107 ergs = 4 129 ´ 10–2 litre-atmospheres = 2 612 ´ 1019 electron volts 1 ergs = 1 ´ 10–7 joule = 2
1	110-113	184 ´ 107 ergs = 4 129 ´ 10–2 litre-atmospheres = 2 612 ´ 1019 electron volts 1 ergs = 1 ´ 10–7 joule = 2 3901 ´ 10–8 calorie 1 electron volt = 1
1	111-114	129 ´ 10–2 litre-atmospheres = 2 612 ´ 1019 electron volts 1 ergs = 1 ´ 10–7 joule = 2 3901 ´ 10–8 calorie 1 electron volt = 1 6022 ´ 10–19 joule = 1
1	112-115	612 ´ 1019 electron volts 1 ergs = 1 ´ 10–7 joule = 2 3901 ´ 10–8 calorie 1 electron volt = 1 6022 ´ 10–19 joule = 1 6022 ´ 10–12 erg = 96
1	113-116	3901 ´ 10–8 calorie 1 electron volt = 1 6022 ´ 10–19 joule = 1 6022 ´ 10–12 erg = 96 487 kJ/mol† 1 litre-atmosphere = 24
1	114-117	6022 ´ 10–19 joule = 1 6022 ´ 10–12 erg = 96 487 kJ/mol† 1 litre-atmosphere = 24 217 calories = 101
1	115-118	6022 ´ 10–12 erg = 96 487 kJ/mol† 1 litre-atmosphere = 24 217 calories = 101 32 joules = 1
1	116-119	487 kJ/mol† 1 litre-atmosphere = 24 217 calories = 101 32 joules = 1 0132 ´109 ergs 1 British thermal unit = 1055
1	117-120	217 calories = 101 32 joules = 1 0132 ´109 ergs 1 British thermal unit = 1055 06 joules = 1
1	118-121	32 joules = 1 0132 ´109 ergs 1 British thermal unit = 1055 06 joules = 1 05506 ´1010 ergs = 252
1	119-122	0132 ´109 ergs 1 British thermal unit = 1055 06 joules = 1 05506 ´1010 ergs = 252 2 calories Common Units of Length 1 inch = 2
1	120-123	06 joules = 1 05506 ´1010 ergs = 252 2 calories Common Units of Length 1 inch = 2 54 centimetres (exactly) 1 mile = 5280 feet = 1
1	121-124	05506 ´1010 ergs = 252 2 calories Common Units of Length 1 inch = 2 54 centimetres (exactly) 1 mile = 5280 feet = 1 609 kilometres 1 yard = 36 inches = 0
1	122-125	2 calories Common Units of Length 1 inch = 2 54 centimetres (exactly) 1 mile = 5280 feet = 1 609 kilometres 1 yard = 36 inches = 0 9144 metre 1 metre = 100 centimetres = 39
1	123-126	54 centimetres (exactly) 1 mile = 5280 feet = 1 609 kilometres 1 yard = 36 inches = 0 9144 metre 1 metre = 100 centimetres = 39 37 inches = 3
1	124-127	609 kilometres 1 yard = 36 inches = 0 9144 metre 1 metre = 100 centimetres = 39 37 inches = 3 281 feet = 1
1	125-128	9144 metre 1 metre = 100 centimetres = 39 37 inches = 3 281 feet = 1 094 yards 1 kilometre = 1000 metres = 1094 yards = 0
1	126-129	37 inches = 3 281 feet = 1 094 yards 1 kilometre = 1000 metres = 1094 yards = 0 6215 mile 1 Angstrom = 1
1	127-130	281 feet = 1 094 yards 1 kilometre = 1000 metres = 1094 yards = 0 6215 mile 1 Angstrom = 1 0 ´ 10–8 centimetre = 0
1	128-131	094 yards 1 kilometre = 1000 metres = 1094 yards = 0 6215 mile 1 Angstrom = 1 0 ´ 10–8 centimetre = 0 10 nanometre = 1
1	129-132	6215 mile 1 Angstrom = 1 0 ´ 10–8 centimetre = 0 10 nanometre = 1 0 ´ 10–10 metre = 3
1	130-133	0 ´ 10–8 centimetre = 0 10 nanometre = 1 0 ´ 10–10 metre = 3 937 ´ 10–9 inch Common Units of Force* and Pressure 1 atmosphere = 760 millimetres of mercury = 1
1	131-134	10 nanometre = 1 0 ´ 10–10 metre = 3 937 ´ 10–9 inch Common Units of Force* and Pressure 1 atmosphere = 760 millimetres of mercury = 1 013 ´ 105 pascals = 14
1	132-135	0 ´ 10–10 metre = 3 937 ´ 10–9 inch Common Units of Force* and Pressure 1 atmosphere = 760 millimetres of mercury = 1 013 ´ 105 pascals = 14 70 pounds per square inch 1 bar = 105 pascals 1 torr = 1 millimetre of mercury 1 pascal = 1 kg/ms2 = 1 N/m2 Temperature SI Base Unit: Kelvin (K) K = -273
1	133-136	937 ´ 10–9 inch Common Units of Force* and Pressure 1 atmosphere = 760 millimetres of mercury = 1 013 ´ 105 pascals = 14 70 pounds per square inch 1 bar = 105 pascals 1 torr = 1 millimetre of mercury 1 pascal = 1 kg/ms2 = 1 N/m2 Temperature SI Base Unit: Kelvin (K) K = -273 15°C K = °C + 273
1	134-137	013 ´ 105 pascals = 14 70 pounds per square inch 1 bar = 105 pascals 1 torr = 1 millimetre of mercury 1 pascal = 1 kg/ms2 = 1 N/m2 Temperature SI Base Unit: Kelvin (K) K = -273 15°C K = °C + 273 15 °F = 1
1	135-138	70 pounds per square inch 1 bar = 105 pascals 1 torr = 1 millimetre of mercury 1 pascal = 1 kg/ms2 = 1 N/m2 Temperature SI Base Unit: Kelvin (K) K = -273 15°C K = °C + 273 15 °F = 1 8(°C) + 32 F 32 C 1
1	136-139	15°C K = °C + 273 15 °F = 1 8(°C) + 32 F 32 C 1 8     * Force: 1 newton (N) = 1 kg m/s2, i
1	137-140	15 °F = 1 8(°C) + 32 F 32 C 1 8     * Force: 1 newton (N) = 1 kg m/s2, i e
1	138-141	8(°C) + 32 F 32 C 1 8     * Force: 1 newton (N) = 1 kg m/s2, i e ,the force that, when applied for 1 second, gives a 1-kilogram mass a velocity of 1 metre per second
1	139-142	8     * Force: 1 newton (N) = 1 kg m/s2, i e ,the force that, when applied for 1 second, gives a 1-kilogram mass a velocity of 1 metre per second †** The amount of heat required to raise the temperature of one gram of water from 14
1	140-143	e ,the force that, when applied for 1 second, gives a 1-kilogram mass a velocity of 1 metre per second †** The amount of heat required to raise the temperature of one gram of water from 14 50C to 15
1	141-144	,the force that, when applied for 1 second, gives a 1-kilogram mass a velocity of 1 metre per second †** The amount of heat required to raise the temperature of one gram of water from 14 50C to 15 50C
1	142-145	†** The amount of heat required to raise the temperature of one gram of water from 14 50C to 15 50C Note that the other units are per particle and must be multiplied by 6
1	143-146	50C to 15 50C Note that the other units are per particle and must be multiplied by 6 022 ´1023 to be strictly comparable
1	144-147	50C Note that the other units are per particle and must be multiplied by 6 022 ´1023 to be strictly comparable Some Useful Conversion Factors APPENDIX II Rationalised 2023-24 143 Appendix Reduction half-reaction Eo/V H4XeO6 + 2H+ + 2e– ¾® XeO3 + 3H2O +3
1	145-148	Note that the other units are per particle and must be multiplied by 6 022 ´1023 to be strictly comparable Some Useful Conversion Factors APPENDIX II Rationalised 2023-24 143 Appendix Reduction half-reaction Eo/V H4XeO6 + 2H+ + 2e– ¾® XeO3 + 3H2O +3 0 F2 + 2e– ¾® 2F– +2
1	146-149	022 ´1023 to be strictly comparable Some Useful Conversion Factors APPENDIX II Rationalised 2023-24 143 Appendix Reduction half-reaction Eo/V H4XeO6 + 2H+ + 2e– ¾® XeO3 + 3H2O +3 0 F2 + 2e– ¾® 2F– +2 87 O3 + 2H+ + 2e– ¾® O2 + H2O +2
1	147-150	Some Useful Conversion Factors APPENDIX II Rationalised 2023-24 143 Appendix Reduction half-reaction Eo/V H4XeO6 + 2H+ + 2e– ¾® XeO3 + 3H2O +3 0 F2 + 2e– ¾® 2F– +2 87 O3 + 2H+ + 2e– ¾® O2 + H2O +2 07 S2O 2– 8 + 2e– ¾® 2SO 42– +2
1	148-151	0 F2 + 2e– ¾® 2F– +2 87 O3 + 2H+ + 2e– ¾® O2 + H2O +2 07 S2O 2– 8 + 2e– ¾® 2SO 42– +2 05 Ag+ + e– ¾® Ag+ +1
1	149-152	87 O3 + 2H+ + 2e– ¾® O2 + H2O +2 07 S2O 2– 8 + 2e– ¾® 2SO 42– +2 05 Ag+ + e– ¾® Ag+ +1 98 Co3+ + e– ¾® Co2+ +1
1	150-153	07 S2O 2– 8 + 2e– ¾® 2SO 42– +2 05 Ag+ + e– ¾® Ag+ +1 98 Co3+ + e– ¾® Co2+ +1 81 H2O2 + 2H+ + 2e– ¾® 2H2O +1
1	151-154	05 Ag+ + e– ¾® Ag+ +1 98 Co3+ + e– ¾® Co2+ +1 81 H2O2 + 2H+ + 2e– ¾® 2H2O +1 78 Au+ + e– ¾® Au +1
1	152-155	98 Co3+ + e– ¾® Co2+ +1 81 H2O2 + 2H+ + 2e– ¾® 2H2O +1 78 Au+ + e– ¾® Au +1 69 Pb4+ + 2e– ¾® Pb2+ +1
1	153-156	81 H2O2 + 2H+ + 2e– ¾® 2H2O +1 78 Au+ + e– ¾® Au +1 69 Pb4+ + 2e– ¾® Pb2+ +1 67 2HClO + 2H+ + 2e– ¾® Cl2 + 2H2O +1
1	154-157	78 Au+ + e– ¾® Au +1 69 Pb4+ + 2e– ¾® Pb2+ +1 67 2HClO + 2H+ + 2e– ¾® Cl2 + 2H2O +1 63 Ce4+ + e– ¾® Ce3+ +1
1	155-158	69 Pb4+ + 2e– ¾® Pb2+ +1 67 2HClO + 2H+ + 2e– ¾® Cl2 + 2H2O +1 63 Ce4+ + e– ¾® Ce3+ +1 61 2HBrO + 2H+ + 2e– ¾® Br2 + 2H2O +1
1	156-159	67 2HClO + 2H+ + 2e– ¾® Cl2 + 2H2O +1 63 Ce4+ + e– ¾® Ce3+ +1 61 2HBrO + 2H+ + 2e– ¾® Br2 + 2H2O +1 60 MnO – 4 + 8H+ + 5e– ¾® Mn2+ + 4H2O +1
1	157-160	63 Ce4+ + e– ¾® Ce3+ +1 61 2HBrO + 2H+ + 2e– ¾® Br2 + 2H2O +1 60 MnO – 4 + 8H+ + 5e– ¾® Mn2+ + 4H2O +1 51 Mn3+ + e– ¾® Mn2+ +1
1	158-161	61 2HBrO + 2H+ + 2e– ¾® Br2 + 2H2O +1 60 MnO – 4 + 8H+ + 5e– ¾® Mn2+ + 4H2O +1 51 Mn3+ + e– ¾® Mn2+ +1 51 Au3+ + 3e– ¾® Au +1
1	159-162	60 MnO – 4 + 8H+ + 5e– ¾® Mn2+ + 4H2O +1 51 Mn3+ + e– ¾® Mn2+ +1 51 Au3+ + 3e– ¾® Au +1 40 Cl2 + 2e– ¾® 2Cl– +1
1	160-163	51 Mn3+ + e– ¾® Mn2+ +1 51 Au3+ + 3e– ¾® Au +1 40 Cl2 + 2e– ¾® 2Cl– +1 36 Cr2O 2– 7 + 14H+ + 6e– ¾® 2Cr3+ + 7H2O +1
1	161-164	51 Au3+ + 3e– ¾® Au +1 40 Cl2 + 2e– ¾® 2Cl– +1 36 Cr2O 2– 7 + 14H+ + 6e– ¾® 2Cr3+ + 7H2O +1 33 O3 + H2O + 2e– ¾® O2 + 2OH– +1
1	162-165	40 Cl2 + 2e– ¾® 2Cl– +1 36 Cr2O 2– 7 + 14H+ + 6e– ¾® 2Cr3+ + 7H2O +1 33 O3 + H2O + 2e– ¾® O2 + 2OH– +1 24 O2 + 4H+ + 4e– ¾® 2H2O +1
1	163-166	36 Cr2O 2– 7 + 14H+ + 6e– ¾® 2Cr3+ + 7H2O +1 33 O3 + H2O + 2e– ¾® O2 + 2OH– +1 24 O2 + 4H+ + 4e– ¾® 2H2O +1 23 ClO– 4 + 2H+ +2e– ¾® ClO– 3 + 2H2O +1
1	164-167	33 O3 + H2O + 2e– ¾® O2 + 2OH– +1 24 O2 + 4H+ + 4e– ¾® 2H2O +1 23 ClO– 4 + 2H+ +2e– ¾® ClO– 3 + 2H2O +1 23 MnO2 + 4H+ + 2e– ¾® Mn2+ + 2H2O +1
1	165-168	24 O2 + 4H+ + 4e– ¾® 2H2O +1 23 ClO– 4 + 2H+ +2e– ¾® ClO– 3 + 2H2O +1 23 MnO2 + 4H+ + 2e– ¾® Mn2+ + 2H2O +1 23 Pt2+ + 2e– ¾® Pt +1
1	166-169	23 ClO– 4 + 2H+ +2e– ¾® ClO– 3 + 2H2O +1 23 MnO2 + 4H+ + 2e– ¾® Mn2+ + 2H2O +1 23 Pt2+ + 2e– ¾® Pt +1 20 Br2 + 2e– ¾® 2Br– +1
1	167-170	23 MnO2 + 4H+ + 2e– ¾® Mn2+ + 2H2O +1 23 Pt2+ + 2e– ¾® Pt +1 20 Br2 + 2e– ¾® 2Br– +1 09 Pu4+ + e– ¾® Pu3+ +0
1	168-171	23 Pt2+ + 2e– ¾® Pt +1 20 Br2 + 2e– ¾® 2Br– +1 09 Pu4+ + e– ¾® Pu3+ +0 97 NO– 3 + 4H+ + 3e– ¾® NO + 2H2O +0
1	169-172	20 Br2 + 2e– ¾® 2Br– +1 09 Pu4+ + e– ¾® Pu3+ +0 97 NO– 3 + 4H+ + 3e– ¾® NO + 2H2O +0 96 2Hg2+ + 2e– ¾® Hg2+ 2 +0
1	170-173	09 Pu4+ + e– ¾® Pu3+ +0 97 NO– 3 + 4H+ + 3e– ¾® NO + 2H2O +0 96 2Hg2+ + 2e– ¾® Hg2+ 2 +0 92 ClO– + H2O + 2e– ¾® Cl– + 2OH– +0
1	171-174	97 NO– 3 + 4H+ + 3e– ¾® NO + 2H2O +0 96 2Hg2+ + 2e– ¾® Hg2+ 2 +0 92 ClO– + H2O + 2e– ¾® Cl– + 2OH– +0 89 Hg2+ + 2e– ¾® Hg +0
1	172-175	96 2Hg2+ + 2e– ¾® Hg2+ 2 +0 92 ClO– + H2O + 2e– ¾® Cl– + 2OH– +0 89 Hg2+ + 2e– ¾® Hg +0 86 NO– 3 + 2H+ + e– ¾® NO2 + H2O +0
1	173-176	92 ClO– + H2O + 2e– ¾® Cl– + 2OH– +0 89 Hg2+ + 2e– ¾® Hg +0 86 NO– 3 + 2H+ + e– ¾® NO2 + H2O +0 80 Ag+ + e– ¾® Ag +0
1	174-177	89 Hg2+ + 2e– ¾® Hg +0 86 NO– 3 + 2H+ + e– ¾® NO2 + H2O +0 80 Ag+ + e– ¾® Ag +0 80 Hg2+ 2 +2e– ¾® 2Hg +0
1	175-178	86 NO– 3 + 2H+ + e– ¾® NO2 + H2O +0 80 Ag+ + e– ¾® Ag +0 80 Hg2+ 2 +2e– ¾® 2Hg +0 79 Fe3+ + e– ¾® Fe2+ +0
1	176-179	80 Ag+ + e– ¾® Ag +0 80 Hg2+ 2 +2e– ¾® 2Hg +0 79 Fe3+ + e– ¾® Fe2+ +0 77 BrO– + H2O + 2e– ¾® Br– + 2OH– +0
1	177-180	80 Hg2+ 2 +2e– ¾® 2Hg +0 79 Fe3+ + e– ¾® Fe2+ +0 77 BrO– + H2O + 2e– ¾® Br– + 2OH– +0 76 Hg2SO4 +2e– ¾® 2Hg + SO2– 4 +0
1	178-181	79 Fe3+ + e– ¾® Fe2+ +0 77 BrO– + H2O + 2e– ¾® Br– + 2OH– +0 76 Hg2SO4 +2e– ¾® 2Hg + SO2– 4 +0 62 MnO2– 4 + 2H2O + 2e– ¾® MnO2 + 4OH– +0
1	179-182	77 BrO– + H2O + 2e– ¾® Br– + 2OH– +0 76 Hg2SO4 +2e– ¾® 2Hg + SO2– 4 +0 62 MnO2– 4 + 2H2O + 2e– ¾® MnO2 + 4OH– +0 60 MnO– 4 + e– ¾® MnO2– 4 +0
1	180-183	76 Hg2SO4 +2e– ¾® 2Hg + SO2– 4 +0 62 MnO2– 4 + 2H2O + 2e– ¾® MnO2 + 4OH– +0 60 MnO– 4 + e– ¾® MnO2– 4 +0 56 I2 + 2e– ¾® 2I– +0
1	181-184	62 MnO2– 4 + 2H2O + 2e– ¾® MnO2 + 4OH– +0 60 MnO– 4 + e– ¾® MnO2– 4 +0 56 I2 + 2e– ¾® 2I– +0 54 I – 3 + 2e– ¾® 3I– +0
1	182-185	60 MnO– 4 + e– ¾® MnO2– 4 +0 56 I2 + 2e– ¾® 2I– +0 54 I – 3 + 2e– ¾® 3I– +0 53 Reduction half-reaction Eo/V Cu+ + e– ¾® Cu +0
1	183-186	56 I2 + 2e– ¾® 2I– +0 54 I – 3 + 2e– ¾® 3I– +0 53 Reduction half-reaction Eo/V Cu+ + e– ¾® Cu +0 52 NiOOH + H2O + e– ¾® Ni(OH)2 + OH– +0
1	184-187	54 I – 3 + 2e– ¾® 3I– +0 53 Reduction half-reaction Eo/V Cu+ + e– ¾® Cu +0 52 NiOOH + H2O + e– ¾® Ni(OH)2 + OH– +0 49 Ag2CrO4 + 2e– ¾® 2Ag + CrO2– 4 +0
1	185-188	53 Reduction half-reaction Eo/V Cu+ + e– ¾® Cu +0 52 NiOOH + H2O + e– ¾® Ni(OH)2 + OH– +0 49 Ag2CrO4 + 2e– ¾® 2Ag + CrO2– 4 +0 45 O2 + 2H2O + 4e– ¾® 4OH– +0
1	186-189	52 NiOOH + H2O + e– ¾® Ni(OH)2 + OH– +0 49 Ag2CrO4 + 2e– ¾® 2Ag + CrO2– 4 +0 45 O2 + 2H2O + 4e– ¾® 4OH– +0 40 ClO– 4 + H2O + 2e– ¾® ClO– 3 + 2OH– +0
1	187-190	49 Ag2CrO4 + 2e– ¾® 2Ag + CrO2– 4 +0 45 O2 + 2H2O + 4e– ¾® 4OH– +0 40 ClO– 4 + H2O + 2e– ¾® ClO– 3 + 2OH– +0 36 [Fe(CN)6]3– + e– ¾® [Fe(CN)6]4– +0
1	188-191	45 O2 + 2H2O + 4e– ¾® 4OH– +0 40 ClO– 4 + H2O + 2e– ¾® ClO– 3 + 2OH– +0 36 [Fe(CN)6]3– + e– ¾® [Fe(CN)6]4– +0 36 Cu2+ + 2e– ¾® Cu +0
1	189-192	40 ClO– 4 + H2O + 2e– ¾® ClO– 3 + 2OH– +0 36 [Fe(CN)6]3– + e– ¾® [Fe(CN)6]4– +0 36 Cu2+ + 2e– ¾® Cu +0 34 Hg2Cl2 + 2e– ¾® 2Hg + 2Cl– +0
1	190-193	36 [Fe(CN)6]3– + e– ¾® [Fe(CN)6]4– +0 36 Cu2+ + 2e– ¾® Cu +0 34 Hg2Cl2 + 2e– ¾® 2Hg + 2Cl– +0 27 AgCl + e– ¾® Ag + Cl– +0
1	191-194	36 Cu2+ + 2e– ¾® Cu +0 34 Hg2Cl2 + 2e– ¾® 2Hg + 2Cl– +0 27 AgCl + e– ¾® Ag + Cl– +0 27 Bi3+ + 3e– ¾® Bi +0
1	192-195	34 Hg2Cl2 + 2e– ¾® 2Hg + 2Cl– +0 27 AgCl + e– ¾® Ag + Cl– +0 27 Bi3+ + 3e– ¾® Bi +0 20 SO4 2 – + 4H+ + 2e– ¾® H2SO3 + H2O +0
1	193-196	27 AgCl + e– ¾® Ag + Cl– +0 27 Bi3+ + 3e– ¾® Bi +0 20 SO4 2 – + 4H+ + 2e– ¾® H2SO3 + H2O +0 17 Cu2+ + e– ¾® Cu+ +0
1	194-197	27 Bi3+ + 3e– ¾® Bi +0 20 SO4 2 – + 4H+ + 2e– ¾® H2SO3 + H2O +0 17 Cu2+ + e– ¾® Cu+ +0 16 Sn4+ + 2e– ¾® Sn2+ +0
1	195-198	20 SO4 2 – + 4H+ + 2e– ¾® H2SO3 + H2O +0 17 Cu2+ + e– ¾® Cu+ +0 16 Sn4+ + 2e– ¾® Sn2+ +0 15 AgBr + e– ¾® Ag + Br– +0
1	196-199	17 Cu2+ + e– ¾® Cu+ +0 16 Sn4+ + 2e– ¾® Sn2+ +0 15 AgBr + e– ¾® Ag + Br– +0 07 Ti4+ + e– ¾® Ti3+ 0
1	197-200	16 Sn4+ + 2e– ¾® Sn2+ +0 15 AgBr + e– ¾® Ag + Br– +0 07 Ti4+ + e– ¾® Ti3+ 0 00 2H+ + 2e– ¾® H2 0
1	198-201	15 AgBr + e– ¾® Ag + Br– +0 07 Ti4+ + e– ¾® Ti3+ 0 00 2H+ + 2e– ¾® H2 0 0 by definition Fe3+ + 3e– ¾® Fe –0
1	199-202	07 Ti4+ + e– ¾® Ti3+ 0 00 2H+ + 2e– ¾® H2 0 0 by definition Fe3+ + 3e– ¾® Fe –0 04 O2 + H2O + 2e– ¾® HO– 2 + OH– –0
1	200-203	00 2H+ + 2e– ¾® H2 0 0 by definition Fe3+ + 3e– ¾® Fe –0 04 O2 + H2O + 2e– ¾® HO– 2 + OH– –0 08 Pb2+ + 2e– ¾® Pb –0
1	201-204	0 by definition Fe3+ + 3e– ¾® Fe –0 04 O2 + H2O + 2e– ¾® HO– 2 + OH– –0 08 Pb2+ + 2e– ¾® Pb –0 13 In+ + e– ¾® In –0
1	202-205	04 O2 + H2O + 2e– ¾® HO– 2 + OH– –0 08 Pb2+ + 2e– ¾® Pb –0 13 In+ + e– ¾® In –0 14 Sn2+ + 2e– ¾® Sn –0
1	203-206	08 Pb2+ + 2e– ¾® Pb –0 13 In+ + e– ¾® In –0 14 Sn2+ + 2e– ¾® Sn –0 14 AgI + e– ¾® Ag + I– –0
1	204-207	13 In+ + e– ¾® In –0 14 Sn2+ + 2e– ¾® Sn –0 14 AgI + e– ¾® Ag + I– –0 15 Ni2+ + 2e– ¾® Ni –0

1

105-108

056 ´ 10-3 quart 1 cubic foot = 28 316 litres = 29 902 quarts = 7 475 gallons Common Units of Energy 1 joule = 1 ´´´´´ 107 ergs 1 thermochemical calorie** = 4

1

106-109

316 litres = 29 902 quarts = 7 475 gallons Common Units of Energy 1 joule = 1 ´´´´´ 107 ergs 1 thermochemical calorie** = 4 184 joules = 4

1

107-110

902 quarts = 7 475 gallons Common Units of Energy 1 joule = 1 ´´´´´ 107 ergs 1 thermochemical calorie** = 4 184 joules = 4 184 ´ 107 ergs = 4

1

108-111

475 gallons Common Units of Energy 1 joule = 1 ´´´´´ 107 ergs 1 thermochemical calorie** = 4 184 joules = 4 184 ´ 107 ergs = 4 129 ´ 10–2 litre-atmospheres = 2

1

109-112

184 joules = 4 184 ´ 107 ergs = 4 129 ´ 10–2 litre-atmospheres = 2 612 ´ 1019 electron volts 1 ergs = 1 ´ 10–7 joule = 2

1

110-113

184 ´ 107 ergs = 4 129 ´ 10–2 litre-atmospheres = 2 612 ´ 1019 electron volts 1 ergs = 1 ´ 10–7 joule = 2 3901 ´ 10–8 calorie 1 electron volt = 1

1

111-114

129 ´ 10–2 litre-atmospheres = 2 612 ´ 1019 electron volts 1 ergs = 1 ´ 10–7 joule = 2 3901 ´ 10–8 calorie 1 electron volt = 1 6022 ´ 10–19 joule = 1

1

112-115

612 ´ 1019 electron volts 1 ergs = 1 ´ 10–7 joule = 2 3901 ´ 10–8 calorie 1 electron volt = 1 6022 ´ 10–19 joule = 1 6022 ´ 10–12 erg = 96

1

113-116

3901 ´ 10–8 calorie 1 electron volt = 1 6022 ´ 10–19 joule = 1 6022 ´ 10–12 erg = 96 487 kJ/mol† 1 litre-atmosphere = 24

1

114-117

6022 ´ 10–19 joule = 1 6022 ´ 10–12 erg = 96 487 kJ/mol† 1 litre-atmosphere = 24 217 calories = 101

1

115-118

6022 ´ 10–12 erg = 96 487 kJ/mol† 1 litre-atmosphere = 24 217 calories = 101 32 joules = 1

1

116-119

487 kJ/mol† 1 litre-atmosphere = 24 217 calories = 101 32 joules = 1 0132 ´109 ergs 1 British thermal unit = 1055

1

117-120

217 calories = 101 32 joules = 1 0132 ´109 ergs 1 British thermal unit = 1055 06 joules = 1

1

118-121

32 joules = 1 0132 ´109 ergs 1 British thermal unit = 1055 06 joules = 1 05506 ´1010 ergs = 252

1

119-122

0132 ´109 ergs 1 British thermal unit = 1055 06 joules = 1 05506 ´1010 ergs = 252 2 calories Common Units of Length 1 inch = 2

1

120-123

06 joules = 1 05506 ´1010 ergs = 252 2 calories Common Units of Length 1 inch = 2 54 centimetres (exactly) 1 mile = 5280 feet = 1

1

121-124

05506 ´1010 ergs = 252 2 calories Common Units of Length 1 inch = 2 54 centimetres (exactly) 1 mile = 5280 feet = 1 609 kilometres 1 yard = 36 inches = 0

1

122-125

2 calories Common Units of Length 1 inch = 2 54 centimetres (exactly) 1 mile = 5280 feet = 1 609 kilometres 1 yard = 36 inches = 0 9144 metre 1 metre = 100 centimetres = 39

1

123-126

54 centimetres (exactly) 1 mile = 5280 feet = 1 609 kilometres 1 yard = 36 inches = 0 9144 metre 1 metre = 100 centimetres = 39 37 inches = 3

1

124-127

609 kilometres 1 yard = 36 inches = 0 9144 metre 1 metre = 100 centimetres = 39 37 inches = 3 281 feet = 1

1

125-128

9144 metre 1 metre = 100 centimetres = 39 37 inches = 3 281 feet = 1 094 yards 1 kilometre = 1000 metres = 1094 yards = 0

1

126-129

37 inches = 3 281 feet = 1 094 yards 1 kilometre = 1000 metres = 1094 yards = 0 6215 mile 1 Angstrom = 1

1

127-130

281 feet = 1 094 yards 1 kilometre = 1000 metres = 1094 yards = 0 6215 mile 1 Angstrom = 1 0 ´ 10–8 centimetre = 0

1

128-131

094 yards 1 kilometre = 1000 metres = 1094 yards = 0 6215 mile 1 Angstrom = 1 0 ´ 10–8 centimetre = 0 10 nanometre = 1

1

129-132

6215 mile 1 Angstrom = 1 0 ´ 10–8 centimetre = 0 10 nanometre = 1 0 ´ 10–10 metre = 3

1

130-133

0 ´ 10–8 centimetre = 0 10 nanometre = 1 0 ´ 10–10 metre = 3 937 ´ 10–9 inch Common Units of Force* and Pressure 1 atmosphere = 760 millimetres of mercury = 1

1

131-134

10 nanometre = 1 0 ´ 10–10 metre = 3 937 ´ 10–9 inch Common Units of Force* and Pressure 1 atmosphere = 760 millimetres of mercury = 1 013 ´ 105 pascals = 14

1

132-135

0 ´ 10–10 metre = 3 937 ´ 10–9 inch Common Units of Force* and Pressure 1 atmosphere = 760 millimetres of mercury = 1 013 ´ 105 pascals = 14 70 pounds per square inch 1 bar = 105 pascals 1 torr = 1 millimetre of mercury 1 pascal = 1 kg/ms2 = 1 N/m2 Temperature SI Base Unit: Kelvin (K) K = -273

1

133-136

937 ´ 10–9 inch Common Units of Force* and Pressure 1 atmosphere = 760 millimetres of mercury = 1 013 ´ 105 pascals = 14 70 pounds per square inch 1 bar = 105 pascals 1 torr = 1 millimetre of mercury 1 pascal = 1 kg/ms2 = 1 N/m2 Temperature SI Base Unit: Kelvin (K) K = -273 15°C K = °C + 273

1

134-137

013 ´ 105 pascals = 14 70 pounds per square inch 1 bar = 105 pascals 1 torr = 1 millimetre of mercury 1 pascal = 1 kg/ms2 = 1 N/m2 Temperature SI Base Unit: Kelvin (K) K = -273 15°C K = °C + 273 15 °F = 1

1

135-138

70 pounds per square inch 1 bar = 105 pascals 1 torr = 1 millimetre of mercury 1 pascal = 1 kg/ms2 = 1 N/m2 Temperature SI Base Unit: Kelvin (K) K = -273 15°C K = °C + 273 15 °F = 1 8(°C) + 32 F 32 C 1

1

136-139

15°C K = °C + 273 15 °F = 1 8(°C) + 32 F 32 C 1 8     * Force: 1 newton (N) = 1 kg m/s2, i

1

137-140

15 °F = 1 8(°C) + 32 F 32 C 1 8     * Force: 1 newton (N) = 1 kg m/s2, i e

1

138-141

8(°C) + 32 F 32 C 1 8     * Force: 1 newton (N) = 1 kg m/s2, i e ,the force that, when applied for 1 second, gives a 1-kilogram mass a velocity of 1 metre per second

1

139-142

8     * Force: 1 newton (N) = 1 kg m/s2, i e ,the force that, when applied for 1 second, gives a 1-kilogram mass a velocity of 1 metre per second †** The amount of heat required to raise the temperature of one gram of water from 14

1

140-143

e ,the force that, when applied for 1 second, gives a 1-kilogram mass a velocity of 1 metre per second †** The amount of heat required to raise the temperature of one gram of water from 14 50C to 15

1

141-144

,the force that, when applied for 1 second, gives a 1-kilogram mass a velocity of 1 metre per second †** The amount of heat required to raise the temperature of one gram of water from 14 50C to 15 50C

1

142-145

†** The amount of heat required to raise the temperature of one gram of water from 14 50C to 15 50C Note that the other units are per particle and must be multiplied by 6

1

143-146

50C to 15 50C Note that the other units are per particle and must be multiplied by 6 022 ´1023 to be strictly comparable

1

144-147

50C Note that the other units are per particle and must be multiplied by 6 022 ´1023 to be strictly comparable Some Useful Conversion Factors APPENDIX II Rationalised 2023-24 143 Appendix Reduction half-reaction Eo/V H4XeO6 + 2H+ + 2e– ¾® XeO3 + 3H2O +3

1

145-148

Note that the other units are per particle and must be multiplied by 6 022 ´1023 to be strictly comparable Some Useful Conversion Factors APPENDIX II Rationalised 2023-24 143 Appendix Reduction half-reaction Eo/V H4XeO6 + 2H+ + 2e– ¾® XeO3 + 3H2O +3 0 F2 + 2e– ¾® 2F– +2

1

146-149

022 ´1023 to be strictly comparable Some Useful Conversion Factors APPENDIX II Rationalised 2023-24 143 Appendix Reduction half-reaction Eo/V H4XeO6 + 2H+ + 2e– ¾® XeO3 + 3H2O +3 0 F2 + 2e– ¾® 2F– +2 87 O3 + 2H+ + 2e– ¾® O2 + H2O +2

1

147-150

Some Useful Conversion Factors APPENDIX II Rationalised 2023-24 143 Appendix Reduction half-reaction Eo/V H4XeO6 + 2H+ + 2e– ¾® XeO3 + 3H2O +3 0 F2 + 2e– ¾® 2F– +2 87 O3 + 2H+ + 2e– ¾® O2 + H2O +2 07 S2O 2– 8 + 2e– ¾® 2SO 42– +2

1

148-151

0 F2 + 2e– ¾® 2F– +2 87 O3 + 2H+ + 2e– ¾® O2 + H2O +2 07 S2O 2– 8 + 2e– ¾® 2SO 42– +2 05 Ag+ + e– ¾® Ag+ +1

1

149-152

87 O3 + 2H+ + 2e– ¾® O2 + H2O +2 07 S2O 2– 8 + 2e– ¾® 2SO 42– +2 05 Ag+ + e– ¾® Ag+ +1 98 Co3+ + e– ¾® Co2+ +1

1

150-153

07 S2O 2– 8 + 2e– ¾® 2SO 42– +2 05 Ag+ + e– ¾® Ag+ +1 98 Co3+ + e– ¾® Co2+ +1 81 H2O2 + 2H+ + 2e– ¾® 2H2O +1

1

151-154

05 Ag+ + e– ¾® Ag+ +1 98 Co3+ + e– ¾® Co2+ +1 81 H2O2 + 2H+ + 2e– ¾® 2H2O +1 78 Au+ + e– ¾® Au +1

1

152-155

98 Co3+ + e– ¾® Co2+ +1 81 H2O2 + 2H+ + 2e– ¾® 2H2O +1 78 Au+ + e– ¾® Au +1 69 Pb4+ + 2e– ¾® Pb2+ +1

1

153-156

81 H2O2 + 2H+ + 2e– ¾® 2H2O +1 78 Au+ + e– ¾® Au +1 69 Pb4+ + 2e– ¾® Pb2+ +1 67 2HClO + 2H+ + 2e– ¾® Cl2 + 2H2O +1

1

154-157

78 Au+ + e– ¾® Au +1 69 Pb4+ + 2e– ¾® Pb2+ +1 67 2HClO + 2H+ + 2e– ¾® Cl2 + 2H2O +1 63 Ce4+ + e– ¾® Ce3+ +1

1

155-158

69 Pb4+ + 2e– ¾® Pb2+ +1 67 2HClO + 2H+ + 2e– ¾® Cl2 + 2H2O +1 63 Ce4+ + e– ¾® Ce3+ +1 61 2HBrO + 2H+ + 2e– ¾® Br2 + 2H2O +1

1

156-159

67 2HClO + 2H+ + 2e– ¾® Cl2 + 2H2O +1 63 Ce4+ + e– ¾® Ce3+ +1 61 2HBrO + 2H+ + 2e– ¾® Br2 + 2H2O +1 60 MnO – 4 + 8H+ + 5e– ¾® Mn2+ + 4H2O +1

1

157-160

63 Ce4+ + e– ¾® Ce3+ +1 61 2HBrO + 2H+ + 2e– ¾® Br2 + 2H2O +1 60 MnO – 4 + 8H+ + 5e– ¾® Mn2+ + 4H2O +1 51 Mn3+ + e– ¾® Mn2+ +1

1

158-161

61 2HBrO + 2H+ + 2e– ¾® Br2 + 2H2O +1 60 MnO – 4 + 8H+ + 5e– ¾® Mn2+ + 4H2O +1 51 Mn3+ + e– ¾® Mn2+ +1 51 Au3+ + 3e– ¾® Au +1

1

159-162

60 MnO – 4 + 8H+ + 5e– ¾® Mn2+ + 4H2O +1 51 Mn3+ + e– ¾® Mn2+ +1 51 Au3+ + 3e– ¾® Au +1 40 Cl2 + 2e– ¾® 2Cl– +1

1

160-163

51 Mn3+ + e– ¾® Mn2+ +1 51 Au3+ + 3e– ¾® Au +1 40 Cl2 + 2e– ¾® 2Cl– +1 36 Cr2O 2– 7 + 14H+ + 6e– ¾® 2Cr3+ + 7H2O +1

1

161-164

51 Au3+ + 3e– ¾® Au +1 40 Cl2 + 2e– ¾® 2Cl– +1 36 Cr2O 2– 7 + 14H+ + 6e– ¾® 2Cr3+ + 7H2O +1 33 O3 + H2O + 2e– ¾® O2 + 2OH– +1

1

162-165

40 Cl2 + 2e– ¾® 2Cl– +1 36 Cr2O 2– 7 + 14H+ + 6e– ¾® 2Cr3+ + 7H2O +1 33 O3 + H2O + 2e– ¾® O2 + 2OH– +1 24 O2 + 4H+ + 4e– ¾® 2H2O +1

1

163-166

36 Cr2O 2– 7 + 14H+ + 6e– ¾® 2Cr3+ + 7H2O +1 33 O3 + H2O + 2e– ¾® O2 + 2OH– +1 24 O2 + 4H+ + 4e– ¾® 2H2O +1 23 ClO– 4 + 2H+ +2e– ¾® ClO– 3 + 2H2O +1

1

164-167

33 O3 + H2O + 2e– ¾® O2 + 2OH– +1 24 O2 + 4H+ + 4e– ¾® 2H2O +1 23 ClO– 4 + 2H+ +2e– ¾® ClO– 3 + 2H2O +1 23 MnO2 + 4H+ + 2e– ¾® Mn2+ + 2H2O +1

1

165-168

24 O2 + 4H+ + 4e– ¾® 2H2O +1 23 ClO– 4 + 2H+ +2e– ¾® ClO– 3 + 2H2O +1 23 MnO2 + 4H+ + 2e– ¾® Mn2+ + 2H2O +1 23 Pt2+ + 2e– ¾® Pt +1

1

166-169

23 ClO– 4 + 2H+ +2e– ¾® ClO– 3 + 2H2O +1 23 MnO2 + 4H+ + 2e– ¾® Mn2+ + 2H2O +1 23 Pt2+ + 2e– ¾® Pt +1 20 Br2 + 2e– ¾® 2Br– +1

1

167-170

23 MnO2 + 4H+ + 2e– ¾® Mn2+ + 2H2O +1 23 Pt2+ + 2e– ¾® Pt +1 20 Br2 + 2e– ¾® 2Br– +1 09 Pu4+ + e– ¾® Pu3+ +0

1

168-171

23 Pt2+ + 2e– ¾® Pt +1 20 Br2 + 2e– ¾® 2Br– +1 09 Pu4+ + e– ¾® Pu3+ +0 97 NO– 3 + 4H+ + 3e– ¾® NO + 2H2O +0

1

169-172

20 Br2 + 2e– ¾® 2Br– +1 09 Pu4+ + e– ¾® Pu3+ +0 97 NO– 3 + 4H+ + 3e– ¾® NO + 2H2O +0 96 2Hg2+ + 2e– ¾® Hg2+ 2 +0

1

170-173

09 Pu4+ + e– ¾® Pu3+ +0 97 NO– 3 + 4H+ + 3e– ¾® NO + 2H2O +0 96 2Hg2+ + 2e– ¾® Hg2+ 2 +0 92 ClO– + H2O + 2e– ¾® Cl– + 2OH– +0

1

171-174

97 NO– 3 + 4H+ + 3e– ¾® NO + 2H2O +0 96 2Hg2+ + 2e– ¾® Hg2+ 2 +0 92 ClO– + H2O + 2e– ¾® Cl– + 2OH– +0 89 Hg2+ + 2e– ¾® Hg +0

1

172-175

96 2Hg2+ + 2e– ¾® Hg2+ 2 +0 92 ClO– + H2O + 2e– ¾® Cl– + 2OH– +0 89 Hg2+ + 2e– ¾® Hg +0 86 NO– 3 + 2H+ + e– ¾® NO2 + H2O +0

1

173-176

92 ClO– + H2O + 2e– ¾® Cl– + 2OH– +0 89 Hg2+ + 2e– ¾® Hg +0 86 NO– 3 + 2H+ + e– ¾® NO2 + H2O +0 80 Ag+ + e– ¾® Ag +0

1

174-177

89 Hg2+ + 2e– ¾® Hg +0 86 NO– 3 + 2H+ + e– ¾® NO2 + H2O +0 80 Ag+ + e– ¾® Ag +0 80 Hg2+ 2 +2e– ¾® 2Hg +0

1

175-178

86 NO– 3 + 2H+ + e– ¾® NO2 + H2O +0 80 Ag+ + e– ¾® Ag +0 80 Hg2+ 2 +2e– ¾® 2Hg +0 79 Fe3+ + e– ¾® Fe2+ +0

1

176-179

80 Ag+ + e– ¾® Ag +0 80 Hg2+ 2 +2e– ¾® 2Hg +0 79 Fe3+ + e– ¾® Fe2+ +0 77 BrO– + H2O + 2e– ¾® Br– + 2OH– +0

1

177-180

80 Hg2+ 2 +2e– ¾® 2Hg +0 79 Fe3+ + e– ¾® Fe2+ +0 77 BrO– + H2O + 2e– ¾® Br– + 2OH– +0 76 Hg2SO4 +2e– ¾® 2Hg + SO2– 4 +0

1

178-181

79 Fe3+ + e– ¾® Fe2+ +0 77 BrO– + H2O + 2e– ¾® Br– + 2OH– +0 76 Hg2SO4 +2e– ¾® 2Hg + SO2– 4 +0 62 MnO2– 4 + 2H2O + 2e– ¾® MnO2 + 4OH– +0

1

179-182

77 BrO– + H2O + 2e– ¾® Br– + 2OH– +0 76 Hg2SO4 +2e– ¾® 2Hg + SO2– 4 +0 62 MnO2– 4 + 2H2O + 2e– ¾® MnO2 + 4OH– +0 60 MnO– 4 + e– ¾® MnO2– 4 +0

1

180-183

76 Hg2SO4 +2e– ¾® 2Hg + SO2– 4 +0 62 MnO2– 4 + 2H2O + 2e– ¾® MnO2 + 4OH– +0 60 MnO– 4 + e– ¾® MnO2– 4 +0 56 I2 + 2e– ¾® 2I– +0

1

181-184

62 MnO2– 4 + 2H2O + 2e– ¾® MnO2 + 4OH– +0 60 MnO– 4 + e– ¾® MnO2– 4 +0 56 I2 + 2e– ¾® 2I– +0 54 I – 3 + 2e– ¾® 3I– +0

1

182-185

60 MnO– 4 + e– ¾® MnO2– 4 +0 56 I2 + 2e– ¾® 2I– +0 54 I – 3 + 2e– ¾® 3I– +0 53 Reduction half-reaction Eo/V Cu+ + e– ¾® Cu +0

1

183-186

56 I2 + 2e– ¾® 2I– +0 54 I – 3 + 2e– ¾® 3I– +0 53 Reduction half-reaction Eo/V Cu+ + e– ¾® Cu +0 52 NiOOH + H2O + e– ¾® Ni(OH)2 + OH– +0

1

184-187

54 I – 3 + 2e– ¾® 3I– +0 53 Reduction half-reaction Eo/V Cu+ + e– ¾® Cu +0 52 NiOOH + H2O + e– ¾® Ni(OH)2 + OH– +0 49 Ag2CrO4 + 2e– ¾® 2Ag + CrO2– 4 +0

1

185-188

53 Reduction half-reaction Eo/V Cu+ + e– ¾® Cu +0 52 NiOOH + H2O + e– ¾® Ni(OH)2 + OH– +0 49 Ag2CrO4 + 2e– ¾® 2Ag + CrO2– 4 +0 45 O2 + 2H2O + 4e– ¾® 4OH– +0

1

186-189

52 NiOOH + H2O + e– ¾® Ni(OH)2 + OH– +0 49 Ag2CrO4 + 2e– ¾® 2Ag + CrO2– 4 +0 45 O2 + 2H2O + 4e– ¾® 4OH– +0 40 ClO– 4 + H2O + 2e– ¾® ClO– 3 + 2OH– +0

1

187-190

49 Ag2CrO4 + 2e– ¾® 2Ag + CrO2– 4 +0 45 O2 + 2H2O + 4e– ¾® 4OH– +0 40 ClO– 4 + H2O + 2e– ¾® ClO– 3 + 2OH– +0 36 [Fe(CN)6]3– + e– ¾® [Fe(CN)6]4– +0

1

188-191

45 O2 + 2H2O + 4e– ¾® 4OH– +0 40 ClO– 4 + H2O + 2e– ¾® ClO– 3 + 2OH– +0 36 [Fe(CN)6]3– + e– ¾® [Fe(CN)6]4– +0 36 Cu2+ + 2e– ¾® Cu +0

1

189-192

40 ClO– 4 + H2O + 2e– ¾® ClO– 3 + 2OH– +0 36 [Fe(CN)6]3– + e– ¾® [Fe(CN)6]4– +0 36 Cu2+ + 2e– ¾® Cu +0 34 Hg2Cl2 + 2e– ¾® 2Hg + 2Cl– +0

1

190-193

36 [Fe(CN)6]3– + e– ¾® [Fe(CN)6]4– +0 36 Cu2+ + 2e– ¾® Cu +0 34 Hg2Cl2 + 2e– ¾® 2Hg + 2Cl– +0 27 AgCl + e– ¾® Ag + Cl– +0

1

191-194

36 Cu2+ + 2e– ¾® Cu +0 34 Hg2Cl2 + 2e– ¾® 2Hg + 2Cl– +0 27 AgCl + e– ¾® Ag + Cl– +0 27 Bi3+ + 3e– ¾® Bi +0

1

192-195

34 Hg2Cl2 + 2e– ¾® 2Hg + 2Cl– +0 27 AgCl + e– ¾® Ag + Cl– +0 27 Bi3+ + 3e– ¾® Bi +0 20 SO4 2 – + 4H+ + 2e– ¾® H2SO3 + H2O +0

1

193-196

27 AgCl + e– ¾® Ag + Cl– +0 27 Bi3+ + 3e– ¾® Bi +0 20 SO4 2 – + 4H+ + 2e– ¾® H2SO3 + H2O +0 17 Cu2+ + e– ¾® Cu+ +0

1

194-197

27 Bi3+ + 3e– ¾® Bi +0 20 SO4 2 – + 4H+ + 2e– ¾® H2SO3 + H2O +0 17 Cu2+ + e– ¾® Cu+ +0 16 Sn4+ + 2e– ¾® Sn2+ +0

1

195-198

20 SO4 2 – + 4H+ + 2e– ¾® H2SO3 + H2O +0 17 Cu2+ + e– ¾® Cu+ +0 16 Sn4+ + 2e– ¾® Sn2+ +0 15 AgBr + e– ¾® Ag + Br– +0

1

196-199

17 Cu2+ + e– ¾® Cu+ +0 16 Sn4+ + 2e– ¾® Sn2+ +0 15 AgBr + e– ¾® Ag + Br– +0 07 Ti4+ + e– ¾® Ti3+ 0

1

197-200

16 Sn4+ + 2e– ¾® Sn2+ +0 15 AgBr + e– ¾® Ag + Br– +0 07 Ti4+ + e– ¾® Ti3+ 0 00 2H+ + 2e– ¾® H2 0

1

198-201

15 AgBr + e– ¾® Ag + Br– +0 07 Ti4+ + e– ¾® Ti3+ 0 00 2H+ + 2e– ¾® H2 0 0 by definition Fe3+ + 3e– ¾® Fe –0

1

199-202

07 Ti4+ + e– ¾® Ti3+ 0 00 2H+ + 2e– ¾® H2 0 0 by definition Fe3+ + 3e– ¾® Fe –0 04 O2 + H2O + 2e– ¾® HO– 2 + OH– –0

1

200-203

00 2H+ + 2e– ¾® H2 0 0 by definition Fe3+ + 3e– ¾® Fe –0 04 O2 + H2O + 2e– ¾® HO– 2 + OH– –0 08 Pb2+ + 2e– ¾® Pb –0

1

201-204

0 by definition Fe3+ + 3e– ¾® Fe –0 04 O2 + H2O + 2e– ¾® HO– 2 + OH– –0 08 Pb2+ + 2e– ¾® Pb –0 13 In+ + e– ¾® In –0

1

202-205

04 O2 + H2O + 2e– ¾® HO– 2 + OH– –0 08 Pb2+ + 2e– ¾® Pb –0 13 In+ + e– ¾® In –0 14 Sn2+ + 2e– ¾® Sn –0

1

203-206

08 Pb2+ + 2e– ¾® Pb –0 13 In+ + e– ¾® In –0 14 Sn2+ + 2e– ¾® Sn –0 14 AgI + e– ¾® Ag + I– –0

1

204-207

13 In+ + e– ¾® In –0 14 Sn2+ + 2e– ¾® Sn –0 14 AgI + e– ¾® Ag + I– –0 15 Ni2+ + 2e– ¾® Ni –0