Predictions for Chemistry 2014 HSC? (1 Viewer)

SuchSmallHands

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You know how the half-cells are equilibrium reactions?

<img src="http://latex.codecogs.com/gif.latex?Cu^{2&plus;}&plus;2e^{-}\rightleftharpoons&space;Cu" title="Cu^{2+}+2e^{-}\rightleftharpoons Cu" />
Yeah, I know you can apply it. But LCP would here dictate that as you remove the Cu2+ the system should shift to replace them, which goes against the nature of the question as that would darken the solution. Is this HSC?
 

enigma_1

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ignored.....:bomb:
Hardness

Hard water contains significant concentration of Mg and Ca cations and forms a grey scum with soap, whilst soft water forms a lather with soap. Hard water which forms a grey scum dirties clothes and hands and reduces water quality. When soap is added to hard water, the precipiates of calcium and magnesium stearates will form.

QUALITATIVE TEST for hardness: a sample of water is added to a test tube and flakes of soap are added. The test tube is agitated and left for a few minutes. If a grey scum forms which floats on top, then the water is hard but if the soap lathers, then it is not hard water and instead is soft water.

QUANTITATIVE TEST for hardness: There's 2:
- AAS is a sensitive analytical technique which selectively measures concentrations of cations to accurate measurements such as ppm or even ppb using a graphite furnace for lower ppb concentrations instead of the flame. If testing for Calcium concentration, use a calcium lamp and briefly explain what happens - should be in your AAS notes.
- Titration with EDTA (ethylene-diamine-tetra-acetic acid) - apparently you don't need to know the method but it's something like: get 250 ml of the hard water and add 3 drops of NH4Cl buffered solution to it. Add a few drops of erichrome black T indicator and titrate it with the EDTA in order to determine the concentration.

DISSOLVED OXYGEN
Disssolved oxygen is the concentration of oxygen dissolved in 1 litre of water at 20oC. Dissolved oxygen must be measure (it's concentration) because it must be between 6-8ppm in water for fish to breathe. If it drops to below 5ppm, fish experience asphyxiation and their gills close up and they can't breathe. DO high level is also required for photosynthesis of plants at the surface of the water.

QUALITATIVE TEST: Methylene blue indicator - add some drops to the water and if the colour changes to blue then oxygen is present dissolved on water but if the indicator makes the water yellow then no oxygen present.

QUANTITATIVE TEST: Use Polarographic oxygen probe which has a silver ring anode and a platinum disk cathode and also a buffered KCl solution with a porous membrane which allows O2 to diffuse through. A constant voltage is established between anode and cathode and as the O2 diffuses into it, a current is generated and measuring the current allows the o2 concentration to be determined.

BIOCHEMICAL OXYGEN DEMAND
Is the measure of oxygen needed in water for the complete breakdown of organic matter in the water by AEROBIC bacteria (they require oxygen). High BOD indicates a high amount of pollution via sewage and stuff which would drain the DO out of the water --> asphyxiation and fish die etc so this is related to dissolved oxygen from above.

QUALITTATIVE TEST = NONE!

QUANTITATIVE TEST
= Use the same procedure as the dissolved oxygen method but BOD is undertaken over 5 day period with the first measurement on the first day and the last measurement on the 5th day to determine the change in dissolved oxygen concentration to determine the BOD of the water (how much o2 is used up over 5 days). ALso put the water sample in the dark to prevent photosynthesis or anything from occurring which could provide an inaccurate concentration of O2.
 
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Yeah, I know you can apply it. But LCP would here dictate that as you remove the Cu2+ the system should shift to replace them, which goes against the nature of the question as that would darken the solution. Is this HSC?
I'm not sure, but I remember my teacher explaining it to me this way and I just forgot
 

enigma_1

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zhertec

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Hardness

Hard water contains significant concentration of Mg and Ca cations and forms a grey scum with soap, whilst soft water forms a lather with soap. Hard water which forms a grey scum dirties clothes and hands and reduces water quality. When soap is added to hard water, the precipiates of calcium and magnesium stearates will form.

QUALITATIVE TEST for hardness: a sample of water is added to a test tube and flakes of soap are added. The test tube is agitated and left for a few minutes. If a grey scum forms which floats on top, then the water is hard but if the soap lathers, then it is not hard water and instead is soft water.

QUANTITATIVE TEST for hardness: There's 2:
- AAS is a sensitive analytical technique which selectively measures concentrations of cations to accurate measurements such as ppm or even ppb using a graphite furnace for lower ppb concentrations instead of the flame. If testing for Calcium concentration, use a calcium lamp and briefly explain what happens - should be in your AAS notes.
- Titration with EDTA (ethylene-diamine-tetra-acetic acid) - apparently you don't need to know the method but it's something like: get 250 ml of the hard water and add 3 drops of NH4Cl buffered solution to it. Add a few drops of erichrome black T indicator and titrate it with the EDTA in order to determine the concentration.

DISSOLVED OXYGEN
Disssolved oxygen is the concentration of oxygen dissolved in 1 litre of water at 20oC. Dissolved oxygen must be measure (it's concentration) because it must be between 6-8ppm in water for fish to breathe. If it drops to below 5ppm, fish experience asphyxiation and their gills close up and they can't breathe. DO high level is also required for photosynthesis of plants at the surface of the water.

QUALITATIVE TEST: Methylene blue indicator - add some drops to the water and if the colour changes to blue then oxygen is present dissolved on water but if the indicator makes the water yellow then no oxygen present.

QUANTITATIVE TEST: Use Polarographic oxygen probe which has a silver ring anode and a platinum disk cathode and also a buffered KCl solution with a porous membrane which allows O2 to diffuse through. A constant voltage is established between anode and cathode and as the O2 diffuses into it, a current is generated and measuring the current allows the o2 concentration to be determined.

BIOCHEMICAL OXYGEN DEMAND
Is the measure of oxygen needed in water for the complete breakdown of organic matter in the water by AEROBIC bacteria (they require oxygen). High BOD indicates a high amount of pollution via sewage and stuff which would drain the DO out of the water --> asphyxiation and fish die etc so this is related to dissolved oxygen from above.

QUALITTATIVE TEST = NONE!

QUANTITATIVE TEST
= Use the same procedure as the dissolved oxygen method but BOD is undertaken over 5 day period with the first measurement on the first day and the last measurement on the 5th day to determine the change in dissolved oxygen concentration to determine the BOD of the water (how much o2 is used up over 5 days). ALso put the water sample in the dark to prevent photosynthesis or anything from occurring which could provide an inaccurate concentration of O2.
Hmm for quantitative tests many of my class members and I use the winkler method lol, though the electrochemical cell also seems nice :3
 

enigma_1

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Hmm for quantitative tests many of my class members and I use the winkler method lol, though the electrochemical cell also seems nice :3
yeah I was taught that too but I really can't be bothered remembering all that hahah
but yeah the polarographic oxygen probe one is nice and quick.

iirc some years they tested Winkler with calculations and stuff but they'd always provide the equation
 

enigma_1

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Someone can answer this:

Describe a local catchment area and potential sources of contamination to the catchment (3 marks)
 

GOsie

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Reviving my shipwrecks question as it was left unanswered.
i) Name of method for removing salt from an artifact recovered from a wreck (1 mark)
ii) Explain, with reference to two examples, chemical procedures used to clean and preserve artifacts from wrecks (5 marks)
^
 

enigma_1

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omg I hate shipwrecks :/

i) electrolysis

ii) omg 5 marker on shipwrecksssss. I'm gonna be lazy:

- electrolysis wait what am I supposed to talk about here? Like the whole method or just electrolysis for 2 methods?
 

Queenroot

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omg I hate shipwrecks :/

i) electrolysis

ii) omg 5 marker on shipwrecksssss. I'm gonna be lazy:

- electrolysis wait what am I supposed to talk about here? Like the whole method or just electrolysis for 2 methods?
Everything
 

zhertec

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Someone can answer this:

Describe a local catchment area and potential sources of contamination to the catchment (3 marks)
The Warragamba dam in NSW is close to multiple mining sites and farmland which can lead to pathogens in waterways or possibly the leaching of heavy metals.
Catchments close to farmlands suffer from possible pathogen exposures due to animal faecal matter, containing harmful bacteria such as E. coli, being dumped into these water ways. These pathogens may cause serious illnesses if ingested. While the close proximity to mines allow both heavy metals and oxides of non-metals such as sulfur dioxide, to leach into water ways, heavy metals such as lead may cause diseases relating to the central nervous system while oxides of non metals can dissolve in water producing strong acids, which can both cause damage to the enamel and human system...

yes....lol
 

enigma_1

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Everything
arghh stupid shipwrecks. I'll do this in a bit coz I ceebs with the option lol

The Warragamba dam in NSW is close to multiple mining sites and farmland which can lead to pathogens in waterways or possibly the leaching of heavy metals.
Catchments close to farmlands suffer from possible pathogen exposures due to animal faecal matter, containing harmful bacteria such as E. coli, being dumped into these water ways. These pathogens may cause serious illnesses if ingested. While the close proximity to mines allow both heavy metals and oxides of non-metals such as sulfur dioxide, to leach into water ways, heavy metals such as lead may cause diseases relating to the central nervous system while oxides of non metals can dissolve in water producing strong acids, which can both cause damage to the enamel and human system...

yes....lol
noice 3/3
 

SuchSmallHands

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Never did this dot point in class or at home; teacher said they'd never assess it haha
 

seventhroot

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The Warragamba dam in NSW is close to multiple mining sites and farmland which can lead to pathogens in waterways or possibly the leaching of heavy metals.
Catchments close to farmlands suffer from possible pathogen exposures due to animal faecal matter, containing harmful bacteria such as E. coli, being dumped into these water ways. These pathogens may cause serious illnesses if ingested. While the close proximity to mines allow both heavy metals and oxides of non-metals such as sulfur dioxide, to leach into water ways, heavy metals such as lead may cause diseases relating to the central nervous system while oxides of non metals can dissolve in water producing strong acids, which can both cause damage to the enamel and human system...

yes....lol
and who said mining wasn't useful ;)
 

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