very creative. I love the designs that you've put on the cage - creates a very nice effect.

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. . . S w e e t l y I n s a n e . . .

Like it a lot.
Enlighten me on it's background.

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Did you know that:
E^2 = p^2c^2)+([<delta>m^2]c^4.
which implies that:
E= [mc^2]/[<sq. root> 1-(v^2/c")].
when p=0 (in eq 1, or 2, whichever you find simpler)
E=mc^2........
(In reality, p can never=0, so E should, realistically not be =mc^2, )

I know, I like those designs too.

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Did you know that:
E^2 = p^2c^2)+([<delta>m^2]c^4.
which implies that:
E= [mc^2]/[<sq. root> 1-(v^2/c")].
when p=0 (in eq 1, or 2, whichever you find simpler)
E=mc^2........
(In reality, p can never=0, so E should, realistically not be =mc^2, )

its a wounderful protrail of Rhysenn adn its chapter 4 I've been re-reading it recently good fic but i wish the last chapter would happen.

rhysenn= awesome!
she's soo fricking manipulative.. yet i pity her
I LOVE THIS!! i wuld think..that try coloring this picture partially.. like color the cage, her lips and her eyes... this is amazing!!! :faints:

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*melts* This is why I spaz 24/7 bout him _{c'mere.. Babyjaan I you}
Watch "The Fall"!

Thank you, here's the original passage from the Harry Potter fanfic Draco Veritas: "This was a stone chamber whose walls were hung with gold and silver tapestries. It was a vast enclosure, the walls soaring up to a roof lost beyond the hectic flames of the torches that burned there. The floor was inlaid with gold, stuck here and there with somber glowing gems. It was as gaudy a room as Draco had ever seen, made gaudier still by its central decoration - a huge and circular golden cage, the kind that might have held a lion or a tiger. Instead it held a woman. A slender, tall woman clad only in her own long black hair, which swirled around her like smoke, hiding her body. It was not until she raised her face that he knew her.

Rhysenn."

-Cassandra Claire

Thanks for the compliment and chapter reference, I'm sure the last installment will be worth the wait.

Hm.... interesting, gotta go over that soon.

--
Did you know that:
E^2 = p^2c^2)+([<delta>m^2]c^4.
which implies that:
E= [mc^2]/[<sq. root> 1-(v^2/c")].
when p=0 (in eq 1, or 2, whichever you find simpler)
E=mc^2........
(In reality, p can never=0, so E should, realistically not be =mc^2, )

Woa!! That looks gorgeous!!! The details, the hair, the proportions are great

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You never know if you have gone as far as you can until you try to go further.
Robert Merton Solow