limiting series question. (1 Viewer)

barbernator · Sep 16, 2012

can anyone help please? http://exampaper.goodluckwith.us/test/hs/y12/maths/4U/2010SydneyGrammarTrial.pdf

last part last question. cheers

Carrotsticks · Sep 16, 2012

lolcakes52 · Sep 16, 2012

Okay, got this. So you can show the error is $2(\frac{1}{3^7*7} + \frac{1}{3^9*9} ...)$
Now it is evident the each term is less than the previous. With a little bit of justification, we can say that because of the decreasing size of each term in this error sequence the first time is a pretty good approximation of the error sequence in general. ie

$Error = 2(\frac{1}{3^7*7} + \frac{1}{3^9*9} ...)$
$Error > \frac{2}{3^7*7}$
$Error > \frac{2}{3^5*3^2*7}$
But 3^2 is approximately equal to 2^3
$Error > \frac{2}{3^5*7*2^3}$
So the error is approximately $\frac{1}{3^5*7*2^2}$

RealiseNothing · Sep 16, 2012

That's a surprisingly easy question 8 for Grammar.

barbernator · Sep 16, 2012

Carrotsticks said:

haha loving line 3.

lolcakes52 · Sep 16, 2012

Damn carrot, your solution is so much better!

barbernator · Sep 16, 2012

lolcakes52 said:
Okay, got this. So you can show the error is $2(\frac{1}{3^7*7} + \frac{1}{3^9*9} ...)$
Now it is evident the each term is less than the previous. With a little bit of justification, we can say that because of the decreasing size of each term in this error sequence the first time is a pretty good approximation of the error sequence in general. ie

$Error = 2(\frac{1}{3^7*7} + \frac{1}{3^9*9} ...)$
$Error > \frac{2}{3^7*7}$
$Error > \frac{2}{3^5*3^2*7}$
But 3^2 is approximately equal to 2^3
$Error > \frac{2}{3^5*7*2^3}$
So the error is approximately $\frac{1}{3^5*7*2^2}$

you have your signs the wrong way around and it didnt really answer the question.

asianese · Sep 16, 2012

RealiseNothing said:
That's a surprisingly easy question 8 for Grammar.

It's easy if you know how to proceed. I doubt many people would know to replace the 9, 11, 13...with all 7s...

math man · Sep 16, 2012

i put it in to series notation, series notation makes shit easier

Carrotsticks · Sep 17, 2012

asianese said:
It's easy if you know how to proceed. I doubt many people would know to replace the 9, 11, 13...with all 7s...

You just have to be on the constant look-out for 'clues'.

For example the final answer I had to acquire was a closed form (nice single expression) whereas what I had was some sort of open infinite summation. My 'clue' was the fact that the only relationship (in the HSC Syllabus) that draws a connection between an infinite series and a closed form, is the Limiting Sum expression. So I 'forced' the series to become a limiting sum (justified via means of an inequality), and then proceeded to compute the sum as per usual.

lolcakes52 · Sep 18, 2012

barbernator said:
you have your signs the wrong way around and it didnt really answer the question.

Well, everything I said is right.... but I didn't answer the question fully.

limiting series question. (1 Viewer)

barbernator

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what is that?It is Cowpea

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