Extension One Revising Game (1 Viewer)

nerdsforever · May 2, 2009

Re: 2009 3U Maths Marathon

solve: sin3x + sin2x = sinx
0 << x << 360

Drongoski · May 2, 2009

Re: 2009 3U Maths Marathon

$\100dpi sin2x\ +\ sin3x\ =\ sinx\\ \\ \therefore \ \ 2sinx + sin3x\ -\ sinx\ \ =\ \ 0\\ \\ \therefore\ \ 2sinx\cdot cosx\ \ +\ \ 2cos(\frac{3x+x}{2})sin(\frac{3x-x}{2})\ \ =\ \ 0\\ \\ \ \ i.e.\ \ sinx\cdot cosx\ +\ cos2x\cdot sinx\ =\ 0\\ \\ \therefore \ \ sinx(cosx\ +\ 2cos^{2}x\ -\ 1)\ =\ 0\\ \\ i.e. \ \ sinx(2cosx-1)(cosx+1)\ =\ 0\\ \\\ \therefore \ \ sinx \ =\ 0\ \ or\ \ cosx\ =\ \frac{1}{2}\ \ or\ \ cosx\ =\ -1\\ \\ You\ continue\ from\ here, \\ \\$

Edit

Am I supposed to post a question ? I don't have one. Someone plz take over.

nerdsforever · May 2, 2009

Re: 2009 3U Maths Marathon

lol, x = 0, 60, 180, 300, 360.

lolokay · May 2, 2009

Re: 2009 3U Maths Marathon

youngminii said:
I'm gonna change the x into t

ummmm..

youngminii · May 2, 2009

Re: 2009 3U Maths Marathon

lolokay said:
ummmm..

LOL whoops?
I deleted my post. Can't be bothered to think about the question..
Wait was I wrong in the first place? o.o

lolokay · May 2, 2009

Re: 2009 3U Maths Marathon

well i see no error in gurmies' working, and time =/= displacement

nerdsforever · May 3, 2009

Re: 2009 3U Maths Marathon

1) An arithmetic series is 6.5, 9, 11.5, 14, 16.5 + .........

Find the sum of the first 500 terms.

Trebla · May 3, 2009

Define the arithmetic mean of a set of numbers x₁, x₂, ...., x_n as:
$\bar{x}=\dfrac{x_1 + x_2 + ..... + x_n}{n}$
Show that:
$\displaystyle\sum_{i=1}^{n} (x_i - \bar{x}) = 0$

AnandDNA · May 3, 2009

Re: 2009 3U Maths Marathon

nerdsforever said:
1) An arithmetic series is 6.5, 9, 11.5, 14, 16.5 + .........

Find the sum of the first 500 terms.

Sum=1/2*n*(2a+(n-1)d)

=1/2*500(2(6.5)+(599)(2.5))

=377625

Solve abs((x+1)/(x-2)) >2

gurmies · May 3, 2009

Re: 2009 3U Maths Marathon

AnandDNA said:
Solve abs((x+1)/(x-2)) >2

1 ≤ x ≤ 5, x ≠ 2

Trebla said:
Define the arithmetic mean of a set of numbers x₁, x₂, ...., x_n as:

$\bar{x}=\dfrac{x_1 + x_2 + ..... + x_n}{n}$

Show that:

$\displaystyle\sum_{i=1}^{n} (x_i - \bar{x}) = 0$

$\sum_{i=1}^{n}(x_{i}-\overline{x}) = x_{1}-\overline{x}+x_{2}-\overline{x}+...+x_{n}-\overline{x} \,\, so \,\, there \,\, are \,\, n \,\, \overline{x}s \,\, as \,\, there \,\, are \,\, n \,\, terms.$

$= x_{1}+x_{2}+x_{3}+...+x_{n} - n\overline{x}$

$\therefore x_{1}+x_{2}+x_{3}+...+x_{n} - \frac{n(x_{1}+x_{2}+x_{3}+...+x_{n})}{n}$

$= x_{1}+x_{2}+x_{3}+...+x_{n}-(x_{1}+x_{2}+x_{3}+...+x_{n}) = 0$

$Q.E.D.$

shaon0 · May 3, 2009

Re: 2009 3U Maths Marathon

gurmies said:
1 ≤ x ≤ 5, x ≠ 2

$\sum_{i=1}^{n}(x_{i}-\overline{x}) = x_{1}-\overline{x}+x_{2}-\overline{x}+...+x_{n}-\overline{x} \,\, so \,\, there \,\, are \,\, n \,\, \overline{x}s \,\, as \,\, there \,\, are \,\, n \,\, terms.$

$= x_{1}+x_{2}+x_{3}+...+x_{n} - n\overline{x}$

$\therefore x_{1}+x_{2}+x_{3}+...+x_{n} - \frac{n(x_{1}+x_{2}+x_{3}+...+x_{n})}{n}$

$= x_{1}+x_{2}+x_{3}+...+x_{n}-(x_{1}+x_{2}+x_{3}+...+x_{n}) = 0$

$Q.E.D.$

nice solution.

Trebla · May 4, 2009

Might've have been quicker to do:
$x_{1}+x_{2}+x_{3}+...+x_{n} - n\overline{x}\\=n\bar{x}-n\bar{x}\\=0\\$Since $\bar{x}=\dfrac{x_{1}+x_{2}+x_{3}+...+x_{n}}{n}\Rightarrow n\bar{x} = x_{1}+x_{2}+x_{3}+...+x_{n}$

Question (relatively straightforward):

Recall that an object exhibits simple harmonic motion if:
$\dfrac{d^2x}{dt^2}=-n^2x$

Show that if a displacement x is a function consisting of a sum of sines and cosines of equal periods then it is simple harmonic, i.e. prove the following expression describes simple harmonic motion:

$x=\sum_{i=1}^k \sin(nt+\alpha_i) + \sum_{j=1}^r \cos(nt+\alpha_j)$

Dragonmaster262 · May 4, 2009

Re: 2009 3U Maths Marathon

$\mid x+3 \mid + \mid x-2 \mid - \mid 4-x \mid - \mid 1-x \mid = 5$

Air Jordan · May 4, 2009

Re: 2009 3U Maths Marathon

is it 3.5?

Drongoski · May 4, 2009

Re: 2009 3U Maths Marathon

Air Jordan said:
is it 3.5?

Looks right !

azureus88 · May 4, 2009

In answer to Trebla's question:

[maths]x=\sum_{i=1}^{k}\sin(nt+\alpha _i)+\sum_{j=1}^{r}\cos(nt+\alpha_j)[/maths]

[maths]\frac{dx}{dt}=n\sum_{i=1}^{k}\cos(nt+\alpha _i)-n\sum_{j=1}^{r}\sin(nt+\alpha_j)[/maths]

[maths]\frac{d^2x}{dt^2}=-n^2(\sum_{i=1}^{k}\sin(nt+\alpha _i)+\sum_{j=1}^{r}\cos(nt+\alpha_j))[/maths]

[maths]=-n^2x[/maths]

studentcheese · May 4, 2009

Nice and simple:

cos(@ + a) = cos@cosa - sin@sina

Derive the result for sin(@-a) using the above result.

duckcowhybrid · May 4, 2009

Replace sin(@-a) with cos (90-(@-a)) and solve.

gurmies · May 4, 2009

duckcowhybrid said:
Replace sin(@-a) with cos (90-(@-a)) and solve.

I think since it said use the result above, they want the addition. What I mean is:

90 - (@ - a) = 90 + (a-@)

Dragonmaster262 · May 5, 2009

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