past paper Qs (1 Viewer)

swagswagyoloswag · Sep 1, 2015

https://9eeba4054ee764a743f35bb25b5...rraween 2011 Chemistry Trials & Solutions.pdf
how would I do q3 and q8?
and also, is the answer to q13 D?

InteGrand · Sep 1, 2015

swagswagyoloswag said:
https://9eeba4054ee764a743f35bb25b5...rraween 2011 Chemistry Trials & Solutions.pdf
how would I do q3 and q8?
and also, is the answer to q13 D?

The answer to Q.13 should be (A), not (D).

rand_althor · Sep 1, 2015

rand_althor · Sep 1, 2015

8. The tricky part of this question is the way in which the monomer is presented. It is easier to do if you condense the methyl group on the right into CH3. In the polymerisation process, the double bond opens up and monomers join up, forming a polymer. Hopefully this picture helps:

swagswagyoloswag · Sep 1, 2015

InteGrand said:
The answer to Q.13 should be (A), not (D).

How come? I was thinking it wouldn't be linear but eventually it has to reach zero which A doesn't indicate
Also, is there an equation that relates "solubility" with "time"?
Like in Physics, a = Gm/r^2 we can say it would look like (A) because as r varies, a varies inversely

rand_althor · Sep 1, 2015

swagswagyoloswag said:
How come? I was thinking it wouldn't be linear but eventually it has to reach zero which A doesn't indicate
Also, is there an equation that relates "solubility" with "time"?
Like in Physics, a = Gm/r^2 we can say it would look like (A) because as r varies, a varies inversely

No HSC equation that I know of for that. You are looking at concentration here, so think of the equations happening in the soft drink bottle. I think it reaches equilibrium so it would flatten out near the end, rather than reach zero.

InteGrand · Sep 1, 2015

swagswagyoloswag said:
How come? I was thinking it wouldn't be linear but eventually it has to reach zero which A doesn't indicate
Also, is there an equation that relates "solubility" with "time"?
Like in Physics, a = Gm/r^2 we can say it would look like (A) because as r varies, a varies inversely

$This is essentially because the rate of reaction for that would be proportional to the concentration of $\text{CO}_2$ remaining, and we know from calculus that this implies an exponential curve, but this isn't in the syllabus.$

$Just note that intuitively though (enough for an MCQ), a linear decay is unrealistic, because from Prelim, the reaction rate was higher the more concentration there was, and lower the smaller the concentration, so as more $\text{CO}_2$ runs out, the reaction rate slows down and so $\text{CO}_2$ runs out at a slower rate (whereas linear implies a constant rate).$

dan964 · Sep 1, 2015

InteGrand said:
The answer to Q.13 should be (A), not (D).

I'll add it in.

past paper Qs (1 Viewer)

swagswagyoloswag

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InteGrand

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rand_althor

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rand_althor

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swagswagyoloswag

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rand_althor

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InteGrand

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dan964

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