Topic Description: funny and dramatic!
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Impersonation thread! |
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start by doing me, BRING IT ON!!  
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 Nov 1 2006, 10:35 AM
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I WANT TO SKULL FUCK YOU.
(ambulances are the buses of taxis.) PZ This post has been edited by prostitot: Nov 1 2006, 10:41 AM
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I like little girls
like....like...MORE then a friend OMG you will not believe what *insert unpronouncable boy-of-the-weeks name here* Said last night i was like OMG and he was like OMG and we were like OMG
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I like little boys
like....like...MORE then a friend OMG you will not believe what *insert unpronouncable boy-of-the-weeks name here* Said last night i was like OMG and he was like OMG and we were like OMG (....too easy.)
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I like to edit posts!
Oh, the irony. This post has been edited by evil: Nov 2 2006, 05:54 AM
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hi im insanekilla,
nuff said
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ISN'T TORCHIC AWESOME??!!!?? EVERYONE MUST LOVE HIM... HES SO NoT A FEMALE.... hang on.. im not so sure..
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NOBODY'S AS BIG A RENT FAN LIKE ME, K? SO DON'T EVEN TRY, OR I'LL PULL OUT MY SCOUT MOVES ON YOU!
...kapow.
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QUOTE (prostitot @ Mar 20 2007, 10:56 PM)  NOBODY'S AS BIG A RENT FAN LIKE ME, K? SO DON'T EVEN TRY, OR I'LL PULL OUT MY SCOUT MOVES ON YOU! ...kapow. correction im a guide not a scout. but that is still a good impersonation  next person can impersonate prostitot (i think thats how it works)
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hi.. your a boy. you're my boyfriend now.
luv u limlim
This post has been edited by kiki: Mar 21 2007, 05:18 AM
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OK, I'm not using any real names but lets just call one of these people Ciki and one of them Gordan. Ok, NO REAL NAMES!
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Physics attempts to describe the natural world by the application of logic and the scientific method, through a process which includes both modelling by theoreticians and detailed observations and experiments. Because of its simplicity and reliance upon pure theories, physics formerly included the study of natural philosophy, its counterpart which had been called "physics" (earlier physike) from classical times up to the separation of physics from philosophy as a positive science in the nineteenth century.Discoveries in physics find connections throughout the other natural sciences as they regard the basic constituents of the universe. Some of thephenomena studied in physics, such as the conservation of energy, are common to all material systems. These often are referred to as laws of physics. Other phenomena, such as superconductivity, stem from these laws, but are not laws themselves because they only appear in some systems. Physics is often said to be the "fundamental science", because each of the other sciences (biology, chemistry, geology, physiology, archaeology, anthropology, etc.) deals with particular types of material systems that obey the laws of physics.[2] Discoveries in basic physics have important ramifications for all of science. For example,chemistry is the science of matter (such as atoms and molecules) and the chemical substances that they form in the bulk. The structure, reactivity, and properties of a chemical compound are determined by the properties of the underlying molecules, which can be described by areas of physics such as quantum mechanics (called in this case quantum chemistry), thermodynamics, and electromagnetism. (Refer to Branches of physics)
The deepest visible-light image of the universe, the Hubble Ultra Deep Field The deepest visible-light image of the universe, the Hubble Ultra Deep Field Physics is firmly rooted and heavily relies on mathematics, which provides the logical framework in which physical laws can be precisely formulated and their predictions quantified. Physical definitions, models and theories are invariably expressed using mathematical relations. There is a large area of research intermediate between physics and mathematics, known as mathematical physics. As analytic solutions are not always possible, numerical analysis and simulations based on conservation laws and other laws of physics are frequently utilized, especially for odd or complex systems. Thus, scientific computation is an integral part of physics, and the field of computational physics is an active area of research.Physics is also closely related to engineering and technology. For instance, electrical engineering is the study of the practical application of electromagnetism. Statics, a subfield of mechanics, is responsible for the building of bridges. Further, physicists, or practitioners of physics, invent and design processes and devices, such as the transistor, whether in basic or applied research. Experimental physicists design and perform experiments with particle accelerators, nuclear reactors, telescopes, barometers, synchrotrons, cyclotrons, spectrometers, lasers, and other equipment.Beyond the known universe, the field of theoretical physics also deals with hypothetical (but strictly mathematical) issues, such as multidimensional spaces (or space-time), imaginary quantities and numbers, parallel universes, a multiverse, or whether the universe could have expanded as predominantly antimatter rather than matter.Since the construction of quantum mechanics in the early twentieth century, it generally became evident to the physical community that it would be preferable for many known descriptions of nature to be quantized, that is, to follow the postulates of quantum mechanics. To this effect, all results that were not quantized are called classical: this includes the Special Theory and General Theory of Relativity. Simply because a result is classical does not mean that it was discovered before the advent of quantum mechanics. Classical theories are, generally, much easier to work with and much research still is being conducted on them without the express aim of quantization. However, there exist problems in physics in which classical and quantum aspects must be combined to attain some approximation or limit that may acquire several forms as the passage from classical to quantum mechanics is often difficult — such problems are termed semiclassical.Because relativity and quantum mechanics provide the most complete known description of fundamental interactions, however, and because the changes brought by these two frameworks to the physicist's world view were revolutionary, the term modern physics is used to describe physics which relies on these two theories. Colloquially, modern physics may be described as the physics of extremes: from systems at the extremely small (atoms, nuclei, fundamental particles) to the extremely large (the universe) and of the extremely fast (relativity).The culture of physics research differs from the other sciences in the separation of theory and experiment. Since the twentieth century, most individual physicists have specialized in either theoretical physics or experimental physics. The great Italian physicist Enrico Fermi (1901–1954), who made fundamental contributions to both theory and experimentation in nuclear physics, was a notable exception. In contrast, almost all the successful theorists in biology and chemistry (e.g. American quantum chemist and biochemist Linus Pauling) have also been experimentalists, although this is changing as of late. Roughly speaking, theorists seek to develop through abstractions and mathematical models theories that can both describe and interpret existing experimental results, and successfully predict future results, while experimentalists devise and perform experiments to explore new phenomena and test theoretical predictions. Although theory and experiment are developed separately, they are strongly dependent upon each other. Theoretical research in physics, however, may be considered further to draw from mathematical physics and computational physics in addition to experimentation. Progress in physics frequently comes about when experimentalists make a discovery that existing theories cannot account for, necessitating the formulation of new theories. Likewise, ideas arising from theory often inspire new experiments. In the absence of experiment, theoretical research can go in the wrong direction; this is one of the criticisms that has been leveled against M-theory, a popular theory in high-energy physics for which no practical experimental test has ever been devised.
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QUOTE (kiki @ Mar 21 2007, 04:38 PM) hi.. your a boy. you're my boyfriend now. luv u limlim I resent that *evil glare*
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WOOT IT WAS PI DAY LAST WEEK
3.14159265358979323846264338327950288419716939937510582097494459230781 64062862089986280348253421170679... p.s i dont think JohnPaulRingoGeorge does physics
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i love zombies i love zombies i love zombies
*sucks brains out* mmmmm brains... so delicious soooo smooth sooo good! *licks arm*
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QUOTE (slurpee @ Mar 22 2007, 05:45 PM) WOOT IT WAS PI DAY LAST WEEK 3.14159265358979323846264338327950288419716939937510582097494459230781 64062862089986280348253421170679... p.s i dont think JohnPaulRingoGeorge does physics i think he was imitating kiki
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mmm nup got nothin to do with me... pi? pfft. physics? go to hell.
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No no no.
ExplodingMonkeyArmpit was commenting on your impersonation of yours truly, and then slurpee impersonated ExplodingMonkeyArmpit. Geeeez.
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phew, thankfully you brought your personal problems into the thread, if you didn't it would hae gotten awfully droll in here.
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Just doing my part for society =)
Yanno, explaining trivial matters for the rest of the board to understand! You can thank me later, my love.
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Lo-Fi Version | Time is now: 19th May 2013 - 04:45 AM |