In this instance I would say you would get away with 1 atm / 100kPa rather than the 101.325. In the current VCAA curriculum you are unlikely to see questions asking you to do gas calculations based on gaseous electrodes.
@@OOO-gm2sn Chlorine gas will react with iodide ions as chlorine is more reactive (the stronger oxidant and will remove the electrons from the iodide. In the final examples the situation is Iodine crystals these are not ions it is pure iodine reacting with sodium chloride so this is chloride ions not chlorine gas. Chlorine has already gained electrons to form the chloride ion in this case and will not give these up to iodine as it has a higher electronegativity than iodine.
OMG, am doing unit 3 Chem and this has really helped me, very happy to see all other chapters included. Thanks
Glad you are finding it useful
4:05 100kPa?
In this instance I would say you would get away with 1 atm / 100kPa rather than the 101.325. In the current VCAA curriculum you are unlikely to see questions asking you to do gas calculations based on gaseous electrodes.
@@Drvjellis 16:27 why can't the chlorine gas react with iodine ion?
please help me thanks :D
@@OOO-gm2sn Chlorine gas will react with iodide ions as chlorine is more reactive (the stronger oxidant and will remove the electrons from the iodide. In the final examples the situation is Iodine crystals these are not ions it is pure iodine reacting with sodium chloride so this is chloride ions not chlorine gas. Chlorine has already gained electrons to form the chloride ion in this case and will not give these up to iodine as it has a higher electronegativity than iodine.