Riproot
Addiction Psychiatrist
- Joined
- Nov 10, 2009
- Messages
- 8,227
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- HSC
- 2011
- Uni Grad
- 2017
I disagree.A bit strange to allocate 3 marks to that question, a comparison and 3 equations is a bit too much - I think.
I disagree.A bit strange to allocate 3 marks to that question, a comparison and 3 equations is a bit too much - I think.
I got it from a past hsc exam.A bit strange to allocate 3 marks to that question, a comparison and 3 equations is a bit too much - I think.
Ethylene:Compare the process of polymerisation of ethylene and glucose. Include 3 relevant chemical equations in your answer. (3 marks)
Incorrect.The structure below shows one example of a polymer classified as a type of nylon.
Draw structural formulae of the monomers which produced the nylon polymer shown above.
Nope, good try thoughMonomers:
NH = (CH2)8 - NH and CO = (CH2)4 - CO
Not entirely sure, I just learnt it today! Though I'm fairly confident kekeke.
I'll solve it tomorrowNope, good try though
Perhaps move further in to the HSC chemistry course and then reattempt this question.
YepI'll solve it tomorrow
I'm assuming this involves condensation polymers?
My go:The structure below shows one example of a polymer classified as a type of nylon.
Draw structural formulae of the monomers which produced the nylon polymer shown above.
Very close but not quite. Reread what you typed and you'll probably figure it out.My go:
HO - C - (CH2)4 - C - OH and H - N - (CH3)6 - N - H
on top of each single carbon that is bolded is a double bond and O
on top of each single nitrogen that is bolded is a double bond and an H
.\single brahMy go:
HO - C - (CH2)4 - C - OH and H - N - (CH3)6 - N - H
on top of each single carbon that is bolded is a double bond and O
on top of each single nitrogen that is bolded is a double bond and an H
Very close but not quite. Reread what you typed and you'll probably figure it out.
SO diAMIDE is:.\single brah
H2N-(CH2)6-NH2 and COOH-(CH2)4-COOHThe structure below shows one example of a polymer classified as a type of nylon.
Draw structural formulae of the monomers which produced the nylon polymer shown above.
I got this answer as well and it does make sense since you're forming small molecules ie water and you have two functional groups: the amine and carboxylic acid groups.H2N-(CH2)6-NH2 and COOH-(CH2)4-COOH
The condensation reaction removes the hydrogen from the amine group and the -OH from the carboxyl group - this produces water as the by-product.
I'm not entirely sure but it makes sense to me since it's similar to the condensation reaction between amino acids to make proteins.
Butane has very little to no reactivity with aqueous bromine when mixed together. This is a direct result of the alkane-bromine water mixture not being exposed to any ultra violet light thus preventing drops of added aqueous bromine from being decolourised. Although, the reactivity of 1-butene with bromine water is relatively high in comparison as the alkene does not require the presence of u.v. light to react with bromine water and also because it possesses a double bond which can facilitate the joining of 2 atoms by 'opening up'.Explain the different reactivity of butane and 1-butene with aqueous bromine, illustrating your answer with a chemical equation using structural formulas. (2 marks)
An isomer is like a re-arrangement of the haloalkane. It can't be A or B because they both have one fluorine but the original has 2 and it can't be D because that's what that haloalkane is called now
I wudve thought D...An isomer is like a re-arrangement of the haloalkane. It can't be A or B because they both have one fluorine but the original has 2 and it can't be D because that's what that haloalkane is called now
But D is the name of the molecule IN the question- for an isomer, it has to be something else. Watch out for this, they often include the name of the molecule shown as one of the options.I wudve thought D...