HSC 2013 MX2 Marathon (archive) (4 Viewers)

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iBibah

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Re: HSC 2013 4U Marathon

Ok first we want to know what this looks like, it is an argand diagram with complex numbers and .

Now since it is an equilateral triangle, due to all sides being the same length. Hence

Now let , then by substitution we get:



So we end up with:



A really big thanks to your contributions for helping me and other students for our upcoming half yearlies!

I'm really looking forward to future questions that you have to offer
!
hahaha
 

iBibah

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Re: HSC 2013 4U Marathon

Ok first we want to know what this looks like, it is an argand diagram with complex numbers and .

Now since it is an equilateral triangle, due to all sides being the same length. Hence

Now let , then by substitution we get:



So we end up with:



A really big thanks to your contributions for helping me and other students for our upcoming half yearlies!

I'm really looking forward to future questions that you have to offer
!
hahaha
 

GoldyOrNugget

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Re: HSC 2013 4U Marathon

Thanks RealiseNothing, your one of the best guys out their, so nice and keen on helping students.

I hope god be with you always... lol could you please answer the probability questions... please
no need, they're both correct
 

RealiseNothing

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Re: HSC 2013 4U Marathon

Woah, I can't picture anything with that information heh.

Any chance of a diagram?
The question came without a diagram iirc, but if some one can be bothered posting one up then I guess so.
 

SpiralFlex

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Re: HSC 2013 4U Marathon

Guys just a tip, if a question is too easy or you have seen it before don't answer it, give others a go first then guide them if necessary. A few people have PMed me saying they are scared of this thread. We want more people.
 

GoldyOrNugget

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Re: HSC 2013 4U Marathon

A nice circle geo question

a)
∠ABO = ∠ACP = ∠ADO = ∠AEP = 90deg (angle of radius and tangent = 90 deg)
therefore OB || PC (corresponding angles)
therefore ∠AOB = ∠APC (corresponding angles), let this be θ
∠ABP = 180 - ∠AOB = 180 - θ (angles on a straight line are supplementary)
AOT = ∠AOB + ∠BOP = θ + (180 - θ) = 180deg therefore A,O,T are collinear

construct OT, TP
the angles of the tangent to both circles through T, and OT and TP are 90 deg (angle of radius and tangent = 90 deg)
so O,T,P are collinear

if A is collinear to O,T, and also P is collinear to O,T, then A,O,T,P are collinear

b) too tired to work it out, but im pretty sure just use pythagoras and that weird circle geometry rule involving tangents and chords where everything gets squared
 
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Re: HSC 2013 4U Marathon

a)
∠ABO = ∠ACP = ∠ADO = ∠AEP = 90deg (angle of radius and tangent = 90 deg)
therefore OB || PC (corresponding angles)
therefore ∠AOB = ∠APC (corresponding angles), let this be θ
∠ABP = 180 - ∠AOB = 180 - θ (angles on a straight line are supplementary)
AOT = ∠AOB + ∠BOP = θ + (180 - θ) = 180deg therefore A,O,T are collinear

construct OT, TP
the angles of the tangent to both circles through T, and OT and TP are 90 deg (angle of radius and tangent = 90 deg)
so O,T,P are collinear

if A is collinear to O,T, and also P is collinear to O,T, then A,O,T,P are collinear

b) too tired to work it out, but im pretty sure just use pythagoras and that weird circle geometry rule involving tangents and chords where everything gets squared
you just assumed AOP to be a straight line which is what you are trying to prove :p
 

Sy123

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Re: HSC 2013 4U Marathon

Ok, for the first one, I don't know if my proof is allowed, but:

Consider the triangles ABO and ACP
Now, since radius perpendicular to tangent,









Now, since both triangles have common vertice A, and ABC is collinear, therefore it must come about that AOP is collinear

But due to the theorem of intersecting circles thing (not sure the proper name), we already know that OTP is collinear


Hence it must follow that A, O, T, P is collinear.


EDIT: I can make it more rigorous by applying the same arguments for the triangles opposite the ones that I proved it for.
==========

Before I continue, I must know whether this proof is correct.

Thanks
 
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iBibah

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Re: HSC 2013 4U Marathon

Ok, for the first one, I don't know if my proof is allowed, but:

Consider the triangles ABO and ACP
Now, since radius perpendicular to tangent,









Now, since both triangles have common vertice A, and ABC is collinear, therefore it must come about that AOP is collinear

But due to the theorem of intersecting circles thing (not sure the proper name), we already know that OTP is collinear


Hence it must follow that A, O, T, P is collinear.


EDIT: I can make it more rigorous by applying the same arguments for the triangles opposite the ones that I proved it for.
==========

Before I continue, I must know whether this proof is correct.

Thanks
Your second line (angle BAO = angle CAP) assumes that A, O, T and P are collinear.
 
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