• Best of luck to the class of 2024 for their HSC exams. You got this!
    Let us know your thoughts on the HSC exams here
  • YOU can help the next generation of students in the community!
    Share your trial papers and notes on our Notes & Resources page
MedVision ad

HSC 2017 MX2 Marathon (archive) (1 Viewer)

Status
Not open for further replies.

davidgoes4wce

Well-Known Member
Joined
Jun 29, 2014
Messages
1,877
Location
Sydney, New South Wales
Gender
Male
HSC
N/A
Re: HSC 2017 MX2 Marathon

Not sure if its me or the book error but I had a complex number question

(6+i)(a+bi)=2

My solution for



My book has a different solution to that.
 

He-Mann

Vexed?
Joined
Sep 18, 2016
Messages
278
Location
Antartica
Gender
Male
HSC
N/A
Re: HSC 2017 MX2 Marathon

The book's answer is right, you can check it by squaring it to get 5 + i.
 

pikachu975

Premium Member
Joined
May 31, 2015
Messages
2,739
Location
NSW
Gender
Male
HSC
2017
Re: HSC 2017 MX2 Marathon

I spent 5 minutes on this and couldn't solve it.





x^2 - y^2 + 2xyi = 5+i

Comparing real and imaginary
2xy = 1
y = 1/2x

x^2 - y^2 = 5
x^2 - 1/4x^2 = 5
4x^4 - 20x^2 - 1 = 0
x^2 = (20 +- sqrt(20^2 - 4(4)(-1))/2(4)
x^2 = (20+- sqrt(416))/8
x^2 = (20 +- 4sqrt(26))/8
x^2 = (5 +- sqrt(26))/2

But x is real so take the positive case only
x = +- sqrt[(5+sqrt26)/2]
 

jathu123

Active Member
Joined
Apr 21, 2015
Messages
357
Location
Sydney
Gender
Male
HSC
2017
Re: HSC 2017 MX2 Marathon



apologies if the question isn't clear (hence my two examples)
 
Last edited:

si2136

Well-Known Member
Joined
Jul 19, 2014
Messages
1,370
Gender
Undisclosed
HSC
N/A
Re: HSC 2017 MX2 Marathon

Is there a formula for finding the sum of all points (angles where it's spiky) on an n pointed star? For example, for a 5 pointed star, it is 180 degrees
 

1729

Active Member
Joined
Jan 8, 2017
Messages
199
Location
Sydney
Gender
Male
HSC
2018
Re: HSC 2017 MX2 Marathon

Is there a formula for finding the sum of all points (angles where it's spiky) on an n pointed star? For example, for a 5 pointed star, it is 180 degrees
For higher n, there becomes multiple ways to construct the star, each with their own angle sum. ie. the points of the star may create an n-gon, or another star, as shown for n = 7, 11. Note in each case, the first star creates an n-gon by joining every second vertex, while the others create other stars.



 
Last edited:

Sy123

This too shall pass
Joined
Nov 6, 2011
Messages
3,730
Gender
Male
HSC
2013
Re: HSC 2017 MX2 Marathon

This may not be in the spirit of the question, but if you had something different in mind with a more geometric proof, I'd like to see it. Let be the centre of circle . Consider the kite , and apply the cosine rule to the side from both and . Letting, . We obtain that, . A similar expression is obtained for . From this we obtain,

. As we have that is monotonic increasing, and so is maximised if and only if is maximised. Using the appropriate formulae we obtain,

, through calculus or the AM-GM inequality we obtain a maxima when that is unique and so on. However this sends suggesting that .
 

Sy123

This too shall pass
Joined
Nov 6, 2011
Messages
3,730
Gender
Male
HSC
2013
Re: HSC 2017 MX2 Marathon







 
Last edited:

pikachu975

Premium Member
Joined
May 31, 2015
Messages
2,739
Location
NSW
Gender
Male
HSC
2017
Re: HSC 2017 MX2 Marathon

In how many ways can seven identical cats be put into three identical pens so that all of the pens are occupied? You must state reasoning. (2 marks)

Why can we not use stars and bars? I.e. 9C2
 

kawaiipotato

Well-Known Member
Joined
Apr 28, 2015
Messages
463
Gender
Undisclosed
HSC
2015

seanieg89

Well-Known Member
Joined
Aug 8, 2006
Messages
2,662
Gender
Male
HSC
2007
Re: HSC 2017 MX2 Marathon

This may not be in the spirit of the question, but if you had something different in mind with a more geometric proof, I'd like to see it. Let be the centre of circle . Consider the kite , and apply the cosine rule to the side from both and . Letting, . We obtain that, . A similar expression is obtained for . From this we obtain,

. As we have that is monotonic increasing, and so is maximised if and only if is maximised. Using the appropriate formulae we obtain,

, through calculus or the AM-GM inequality we obtain a maxima when that is unique and so on. However this sends suggesting that .
This is what I had in mind.

On the topic of a more geometric solution, I suspect there is a way to kill it quicker using nonsyllabus techniques (inversive geometry perhaps), but it is not immediately apparent to me, I might have a crack later this week.
 
Status
Not open for further replies.

Users Who Are Viewing This Thread (Users: 0, Guests: 1)

Top