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1997 question 6 (1 Viewer)

Bellow

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1997 4u maths
6a) The serues 1-x^2+x^4-.....+x^4n has 2n+1 terms
i) Explain why

1-x^2+x^4-.....+x^4n = [1+x^(4n+2)]/[1+x^2]

ii) Hence show that

1/[1+x^2] <= 1-x^2+x^4-......+x^4n <= 1/[1+x^2] + x^(4n+2)

iii) Hence show that, if 0<=y<=1, then

inv.tan y <= y - (y^3)/3 + (y^5)/5 - ..... + [y^(4n+1)]/[4n+1] <= inv.tan y + 1/[4n+3]

iv) Deduce that 0 < (1 - 1/3 - 1/5 - ..... + 1/1001) - pi/4 < 10^-3

need help on this thx very much =)
 

Necros87

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well the first 1 is a geometric progression (yes that thing that we did in 2u)
dont ask me how to explain it, slept through that topic, just thaught this might help
 

KFunk

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Another question to attach to this one: Whenever they have these questions where you're summing a series they always make the assumption that |x| < 1 (where x is the common multiplied difference), why is that?
 

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KFunk said:
Another question to attach to this one: Whenever they have these questions where you're summing a series they always make the assumption that |x| < 1 (where x is the common multiplied difference), why is that?
i have no idea sorry, but i really need help on inequalities.....very weak at it.....i dunno how to approach some of them.
 

Necros87

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*turns to solutions*
1-x2+x4-... +x4n=1-x2+(x2)2-...+(x2)2n
this is the sum of a GP with a=1
r=-x2 and N=2n+1

Sn = a(1-r^n)
1-r

=1*[1-(1-x2)^(2n+1)]
1-(-x2)

=1+(x2)^(2n+1)
1+x

(since (-x2)^(2n+1)+-(x2)^2n+1) because 2n+1 is odd)

=1+x^(4n+2)
1+x2
 

Bellow

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Necros87 said:
*turns to solutions*
1-x2+x4-... +x4n=1-x2+(x2)2-...+(x2)2n
this is the sum of a GP with a=1
r=-x2 and N=2n+1

Sn = a(1-r^n)
1-r

=1*[1-(1-x2)^(2n+1)]
1-(-x2)

=1+(x2)^(2n+1)
1+x

(since (-x2)^(2n+1)+-(x2)^2n+1) because 2n+1 is odd)

=1+x^(4n+2)
1+x2
yeh i got that part sorry didnt mention that to u but thx anyway.....u kno how to do parts iii) and iv)?.......even part ii), i can do it but im not sure if im correct.
 

KFunk

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For part two:

x<sup>2</sup> + 1 &ge; 1 ... and ... 0 &le; x<sup>4n+2</sup> (even power)

This gives you:

0 &le; x<sup>4n+2</sup>/(1 + x<sup>2</sup>) &le; x<sup>4n+2</sup>

1/(1+x<sup>2</sup>) &le; (x<sup>4n+2</sup>+1)/(1 + x<sup>2</sup>) &le; x<sup>4n+2</sup> + 1/(1+x<sup>2</sup>) ..... by adding 1/(1+x<sup>2</sup>) to each

and of course the middle part is equal to the series as proved in i)
 
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KFunk

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for iii) integrate each part of the inequality w.r.t x between 0 and y

1/[1+x<sup>2</sup>] &le; 1-x<sup>2</sup>+x<sup>4</sup>-...+x<sup>4n</sup> &le; 1/[1+x<sup>2</sup>] + x<sup>4n+2</sup>

&int; 1/[1+x<sup>2</sup>] dx &le; &int; 1-x<sup>2</sup>+x<sup>4</sup>-...+x<sup>4n</sup> dx &le; &int; 1/[1+x<sup>2</sup>] + x<sup>4n+2</sup> dx (between 0 and y for all)

tan<sup>-1</sup>y &le; y - y<sup>3</sup>/3 + y<sup>5</sup>/5 -...+ y<sup>4n+1</sup>/(4n+1) &le; tan<sup>-1</sup>y + y<sup>4n+3</sup>/(4n+3) after subbing in the limits of integration

tan<sup>-1</sup>y &le; y - y<sup>3</sup>/3 + y<sup>5</sup>/5 -...+ y<sup>4n+1</sup>/(4n+1) &le; tan<sup>-1</sup>y + 1/(4n+3)

The last step is because y<sup>4n+3</sup>/(4n+3) &le; 1/(4n+3) since 0 &le; y &le; 1 as defined.
 

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KFunk said:
For part two:

x<sup>2</sup> + 1 &ge; 1 ... and ... 0 &le; x<sup>4n+2</sup> (even power)

This gives you:

0 &le; x<sup>4n+2</sup>/(1 + x<sup>2</sup>) &le; x<sup>4n+2</sup>

1/(1+x<sup>2</sup>) &le; (x<sup>4n+2</sup>+1)/(1 + x<sup>2</sup>) &le; x<sup>4n+2</sup> + 1/(1+x<sup>2</sup>) ..... by adding 1/(1+x<sup>2</sup>) to each

and of course the middle part is equal to the series as proved in i)

cool thx, any ideas on iii) and iv)
 

KFunk

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Give iv) ago by letting y = 1 and choosing an appropriate value of n (i.e. so that 4n+1 = 1001)


EDIT: Also, for part iii) the reason you can integrate between 0 and y (where 0 &le; y &le; 1) is because in summing the geometric series in the form (x<sup>4n+2</sup>+1)/(1 + x<sup>2</sup>) you're making an assumption that |x| < 1 so the inequality holds across that interval 0 &le; x < 1 i.e. you can integrate over it as well.
 
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Bellow

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KFunk said:
Give iv) ago by letting y = 0 and choosing an appropriate value of n (i.e. so that 4n+1 = 1001)


EDIT: Also, for part iii) the reason you can integrate between 0 and y (where 0 &le; y &le; 1) is because in summing the geometric series in the form (x<sup>4n+2</sup>+1)/(1 + x<sup>2</sup>) you're making an assumption that |x| < 1 so the inequality holds across that interval 0 &le; x < 1 i.e. you can integrate over it as well.
ohhh ok.....but then if i let y=0,

0 < 0 - 0/3 +1/5 - ...... + 0/4n+1 < 1/4n+3

did u mean let y=1, since theres a - pi/4 in the middle inequality?
 

KFunk

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Bellow said:
did u mean let y=1, since theres a - pi/4 in the middle inequality?
Haha, my bad :p, yeh I meant y=1. well spotted.
 

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did u approximate n?....
if 4n+1=1001
n=250 (for the mid inequality)

but 4(250)+3 is not equal to 10^-3 (as in the right inequality)

......unless i did something wrong....
 

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