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Paradoxica

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I am an extension 1 student
You're an Ext 1 student and you posted here. Are you saying you want hard Ext 1 maths questions or questions that are actually hard for real mathematicians
Prove or disprove the existence of a universal method to determine whether or not a given equation that defines elliptic curves over ℚ, has finitely, or infinitely many solutions in ℚ.
 

seanieg89

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Prove or disprove the existence of a universal method to determine whether or not a given equation that defines elliptic curves over ℚ, has finitely, or infinitely many solutions in ℚ.
Went to an amazing lecture on this by Venkatesh last year. Fascinating problem.
 

InteGrand

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You're an Ext 1 student and you posted here. Are you saying you want hard Ext 1 maths questions or questions that are actually hard for real mathematicians
I think it was originally posted elsewhere (in Maths Extension 1 forum if I recall correctly), but got moved to this area by a Moderator.
 

Paradoxica

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Went to an amazing lecture on this by Venkatesh last year. Fascinating problem.
I know. I've already read up on a similar problem for general diophantine equations and was disappointed (but it didn't go against my expectations) that the answer was a negative.

I won't be surprised if the answer to that problem is a negative though.
 

tywebb

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Here are some more papers from 1956-1962 containing some hard questions:
http://4unitmaths.com/lc1956-1962.pdf
We can see from the 1957 leaving certificate paper that

1957.png
We can also see from the 2014 HSC Extension 2 exam that

2014.png

These can be combined to produce a new formula for π in terms of binomial coefficients which was discovered in 2007 by J.C. Toloza:

pi-formula.png

as follows:

proof.png
 
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kev@year1223

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Hello @tywebb , would like to buy Cambridge worked out solutions for Maths Extension 1 from you. Could you please advise?
 

tywebb

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Toloza's formula can be generalised to relate π to every second diagonal of Pascal's triangle
When you learned trig did you ever use these archaic trig functions?

Versine: versin(θ)=1-cos(θ)
Vercosine: vercosin(θ)=1+cos(θ)
Coversine: coversin(θ)=1-sin(θ)
Covercosine: covercosine(θ)=1+sin(θ)
Haversine: haversin(θ)=versin(θ)/2
Havercosine: havercosin(θ)=vercosin(θ)/2
Hacoversine: hacoversin(θ)=coversin(θ)/2
Hacovercosine: hacovercosin(θ)=covercosin(θ)/2
Exsecant: exsec(θ)=sec(θ)-1
Excosecant: excsc(θ)=csc(θ)-1

It means the formula for is actually a sum of excosecants.

So it could also be written as

 

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