The Thing

b) What AMOUNT? Now, what unit is THAT? Mol or grams or what? Assuming it's moles: [math] 1.00*10^{22}atoms * \frac{1 mol}{6.022*10^{23}atoms}=1.66*10^{-02}mol [/math] Assuming it's grams: [math] 1.00*10^{22}atoms * \frac{63.546g}{6.022*10^{23}atoms}=1.06g [/math] 3)I DO hope you mean 2.19*10^-22g. [math] \frac{2.19*10^{-22}g}{1 molecule}*\frac{6.022*10^{23} molecules}{1 mol}=131.88g/mol [/math]

[math] \frac{4!}{.4}+tan^{-1}(\frac{4}{4})=105 [/math] And [math] 4*4+sin^{-1}(\frac{4}{4})=106 [/math]

Err, Xyph, I think you were a bit late - 4 min later than me to post the answer for 102. Nothing to worry about, happened to me and every1 else here. Soooo, carrying on for 103: [math] sin^{-1}(cos\sqrt{4})+\frac{sin^{-1}(\frac{\sqrt{4}}{4})}{\sqrt{4}}=103 [/math] Whew, glad that's out of the way.

Try this site to see if you can find the solution: http://aumha.org/win5/kbestop.htm Also, if you're sure it's not due to GoBack, try this article as well: http://support.microsoft.com/?kbid=318666&sd=RMVP

I've heard of the so-called decompilers running amok, and I've been told that few of them of work. I personally have no experience with decompiling. But: if exes could be so easily decompiled, almost every piece of software would be open-sourced and no software companies could ever make even a cent.

Wow the arcsin(cos) thing is having a great vogue here =). Changing it A BIT and we get: [math] cos^{-1}(sin\sqrt{4})+4-\frac{4}{4}=91 [/math] Same thing. Getting onto 92: I'm trying not to use the above method but 92 is quite easy: [math] (4!-2)*4+4=92 [/math]

[math] (4!-4)*4+\sqrt{4}=82 [/math] Since no one did 83, I might as well just finish that: [math] sin^{-1}(cos4)-(\sqrt{4}+\frac{4}{4})=83 [/math] And 84, since it is so easy: [math] (4!-4)*4+4=84 [/math]

edit:posted RIGHT AFTER some1 else (Ducky) for 80.

This is a pattern problem, and the only way I see it being done is figuring out the pattern. Do a smaller sample of the light bulbs first, say the first 100. Draw a chart to map out all the remaining bulbs. We find out that the lights that are left on are all perfect squares, so we can safely deduct (hopefully) that perfect squares will be the only light bulbs that are on. The biggest perfect square in 1 mil is 1,000,000. [math] \sqrt{1000000}=1000 [/math], thus 1000 lights are on, namely the 1, 4, 9, 16, 25, 36, 49, 64, 81, 100, 121, 144 etc lights.

While Trig functions are still okay at the moment, let's do 77: [math] \frac{sin^{-1}(\frac{\sqrt{4}}{4})}{.4}+\sqrt{4}=77 [/math]

[math] 4!+4+tan^{-1}(\frac{4}{4})=73 [/math] Do you count the arctan's -1 as invalid???? Hopefully not. [math] 4!+4+arctan(\frac{4}{4})=73 [/math]

3113112221232112111312211312113211 Got lost in the middle =)

Oh. I didn't read all the other posts from page 2 to 3. I saw some ppl posting consecutive answers, didn't know there was a rule. Lol srry.

[math] \frac{\frac{4!}{4}}{.4}*4=60 [/math] Quick question, do we have to use exactly 4 4s, or just 4 4s or less? Cuz if it is the latter, it is so much easier, simply with: [math] \frac{4!}{.4} [/math]

[math] \frac{4!}{.4}-\frac{4}{4}=59 [/math]

And the next: [math] \frac{4!-\sqrt{4}}{.4}+\sqrt{4}=57 [/math]

Ha I get the easy number: [math] 4!+4!+4+4=56 [/math]

1) Health, without which absolutely NOTHING is possible for you. 2) Family. If there were a #3 it would most definitely be $ =) (legal, w/o laundering).

Hmm, good point. Do you know any experiments I can conduct around this topic for the project? That is , I may have a university sponsor.

Oh btw, are there any experiments around this I can do? I am researching this for a school biotech challenge, and any info or advice is welcome. I am no genius when it comes to biology of this calibre, but plz gimme a hand and advice and any ideas as to any experiments I can do for this project.

Is there a way to induce an immune response to telomerase? That way the body's own T-cells can destroy the cancerous cells that are using telomerase to become immortal. Is there a way to do this (i've heard of something called telomerase-peptide). If so, how does this work? Any info is welcome plz.

How so? Stems cells do use telomerase. But how do the "telomerase inhibitor" researches get around the fact that whatever they're making can affect stem cells as well as cancerous cells?

Since monoclonal antibodies can be produced to allow the immune system to target virtually any compound, it can used to target specific compounds unique to cancerous cells. My question is, can it be used to allow the human immune system to target telomerase and to track down, this way, the tumor sites and cancerous cells?

I rather thought the usage of "grokked" and "stodginess" were a bit unusual, and I presumed that you used the dictionary for those. But sagaciousness? Ah well. Intriguing your comment is. Speak like this you must not. For understand you no one can, and to be understood the purpose of talking is.