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HSC 2015 MX1 Marathon (archive) (1 Viewer)

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thomasdo1

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Re: HSC 2015 3U Marathon

anyone know how to do this? http://puu.sh/kWQRX/39aa4f9a6b.jpg

Since the question tells you the particles collide, could I make x[a] = x (particles a and b) and eliminate t? so Vsin(alpha) = Ucos(beta) --> only when they collide

And prove LHS = RHS when subbing in the value for T into t (in displacement equations) and using Vsin(alpha) = Ucos(beta)?
 
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photastic

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Re: HSC 2015 3U Marathon

anyone know how to do this? http://puu.sh/kWQRX/39aa4f9a6b.jpg

Since the question tells you the particles collide, could I make x[a] = x (particles a and b) and eliminate t? so Vsin(alpha) = Ucos(beta) --> only when they collide

And prove LHS = RHS when subbing in the value for T into t (in displacement equations) and using Vsin(alpha) = Ucos(beta)?


Correct.

Well what's special about collisions, this will occur when the two particles have the same time of flight and some point in time the same vertical and horizontal displacement so to do the q, you must incorporate both vertical and horizontal components. Still stuck, i'll (someone may) post a solution.
 

kawaiipotato

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Re: HSC 2015 3U Marathon

Another alternate method
S = x (1 + 2x + 3x^2 + 4x^3 + ...)

S/x = 1 + x + x^2 + x^3 + x^4 + ...
.............+ x + x^2 + x^3 + x^4 + ...
...................+ x^2 + x^3 + x^4 + ...
.............................+ x^3 + x^4 +
.......................................+x^4 + ...
= 1/(1-x) + x/(1-x) + x^2 /(1-x) + ...
= 1/(1-x)/(1-x) = 1/(1-x)^2
S = x/(1-x)^2
Where x = e^(-2t)
 
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davidgoes4wce

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Re: HSC 2015 3U Marathon



for the explanation for Angle QCD= Angle QAD step

Could I explain it by saying "Angles at the circumference are equal when subtended by the same arc QD") ?

In the solution it says "since angle standing on the same arc QD are equal".
 

Zlatman

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Re: HSC 2015 3U Marathon

for the explanation for Angle QCD= Angle QAD step

Could I explain it by saying "Angles at the circumference are equal when subtended by the same arc QD") ?

In the solution it says "since angle standing on the same arc QD are equal".
Yep, they're just different ways of saying the same thing.
 

Crisium

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Re: HSC 2015 3U Marathon

lol @ leehuan the snake he managed to get a post into the MX1 general thoughts thread before Rafy locked it :lol:

On another note, I've seen two triangles that have been used for the t-formula

Triangle 1:

The sides have 2t , 1 + t^2 and 1 - t^2

Triangle 2:

The sides have t , 1 , (1 + t^2 )^0.5

Could somebody post up an example of when triangle 2 would be used?
 

rand_althor

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Re: HSC 2015 3U Marathon

lol @ leehuan the snake he managed to get a post into the MX1 general thoughts thread before Rafy locked it [emoji38]

On another note, I've seen two triangles that have been used for the t-formula

Triangle 1:

The sides have 2t , 1 + t^2 and 1 - t^2

Triangle 2:

The sides have t , 1 , (1 + t^2 )^0.5

Could somebody post up an example of when triangle 2 would be used?
In the second triangle tan(x/2)=t. Using this triangle, you can find sinx, cosx and tanx in terms of t. The first triangle is the sides of a triangle with sinx, cosx and tanx in terms of t.
 

InteGrand

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Re: HSC 2015 3U Marathon

In the second triangle tan(x/2)=t. Using this triangle, you can find sinx, cosx and tanx in terms of t. The first triangle is the sides of a triangle with sinx, cosx and tanx in terms of t.
For the second triangle, it's t = tan(x), and you can find sin(x), cos(x) (and trivially tan(x)) in terms of tan(x) = t.
 

leehuan

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Re: HSC 2015 3U Marathon

lol @ leehuan the snake he managed to get a post into the MX1 general thoughts thread before Rafy locked it :lol:

On another note, I've seen two triangles that have been used for the t-formula

Triangle 1:

The sides have 2t , 1 + t^2 and 1 - t^2

Triangle 2:

The sides have t , 1 , (1 + t^2 )^0.5

Could somebody post up an example of when triangle 2 would be used?
It got deleted. :(
 
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