Bryan王道 2005-8-12 10:18
[灌水]哎....为什么都玩街机呢.......
有没人在家里粉的啊
街的价格不匪 找个熟人去家里玩
小沈vs小雨 2005-8-12 12:34
<P>好的</P><P>你家在哪啊 </P><P>我去你家陪你玩</P>
Bryan王道 2005-8-12 22:29
<P>夫子庙 你不是LM 跟BL吧.........我怕怕</P>
scylla 2005-8-14 11:17
[quote]<B>以下是引用<I>Bryan王道</I>在2005-8-12 22:29:49的发言:</B>
<P>夫子庙 你不是LM 跟BL吧.........我怕怕</P>[/quote]
是的。
tianyuanyuan 2005-8-14 12:38
你怎么知道的 莫非 你也是?
tianyuanyuan 2005-8-14 14:20
你给我分析
scylla 2005-8-14 16:21
其实是这么一回事。
[align=right][color=#000066][此贴子已经被作者于2005-8-14 16:26:17编辑过][/color][/align]
tianyuanyuan 2005-8-14 16:45
哦 原来是这样哦 知道了
scylla 2005-8-14 22:43
<P>什么是高手?</P><P>高手就是不需要知道别人说什么就领悟了。</P><P>打铁拳也是如此。</P><P>这就是南京的实力。</P>
scylla 2005-8-15 09:28
<P>我一直都说人话唉。</P><P>自从上次和tianyuanyuan家的狗沟通失败,我就放弃学犬语了。</P><P>至于这方面,tianyuanyuan比较拿手。</P>
scylla 2005-8-15 18:10
对了,它是有特异功能,要不然怎么能和人类沟通的呢?
tianyuanyuan 2005-8-15 18:37
<P>老子操你家祖宗十八代 还不能夸你咯 夸你两句就上天了</P><P>就讲的不是人话咯 啊是啊????</P>
tianyuanyuan 2005-8-15 23:36
是你妈日比 呆比东西 不骂你难过
yung 2005-8-16 02:13
[quote]<B>以下是引用<I>scylla</I>在2005-8-15 18:56:27的发言:</B>
<P>是 </P>[/quote]
BL!!!!
scylla 2005-8-16 21:00
The success of scientific theories, particularly Newton’s theory of gravity, led the French scientist the Marquis de Laplace at the beginning of the nineteenth century to argue that the universe was completely deterministic. Laplace suggested that there should be a set of scientific laws that would allow us to predict everything that would happen in the universe, if only we knew the complete state of the universe at one time. For example, if we knew the positions and speeds of the sun and the planets at one time, then we could use Newton’s laws to calculate the state of the Solar System at any other time. Determinism seems fairly obvious in this case, but Laplace went further to assume that there were similar laws governing everything else, including human behavior.</P>The quantum hypothesis explained the observed rate of emission of radiation from hot bodies very well, but its implications for determinism were not realized until 1926, when another German scientist, Werner Heisenberg, formulated his famous uncertainty principle. In order to predict the future position and velocity of a particle, one has to be able to measure its present position and velocity accurately. The obvious way to do this is to shine light on the particle. Some of the waves of light will be scattered by the particle and this will indicate its position. However, one will not be able to determine the position of the particle more accurately than the distance between the wave crests of light, so one needs to use light of a short wavelength in order to measure the position of the particle precisely. Now, by Planck’s quantum hypothesis, one cannot use an arbitrarily small amount of light; one has to use at least one quantum. This quantum will disturb the particle and change its velocity in a way that cannot be predicted. moreover, the more accurately one measures the position, the shorter the wavelength of the light that one needs and hence the higher the energy of a single quantum. So the velocity of the particle will be disturbed by a larger amount. In other words, the more accurately you try to measure the position of the particle, the less accurately you can measure its speed, and vice versa. Heisenberg showed that the uncertainty in the position of the particle times the uncertainty in its velocity times the mass of the particle can never be smaller than a certain quantity, which is known as Planck’s constant. Moreover, this limit does not depend on the way in which one tries to measure the position or velocity of the particle, or on the type of particle: Heisenberg’s uncertainty principle is a fundamental, inescapable property of the world.</P>The uncertainty principle had profound implications for the way in which we view the world. Even after more than seventy years they have not been fully appreciated by many philosophers, and are still the subject of much controversy. The uncertainty principle signaled an end to Laplace’s dream of a theory of science, a model of the universe that would be completely deterministic: one certainly cannot predict future events exactly if one cannot even measure the present state of the universe precisely! We could still imagine that there is a set of laws that determine events completely for some supernatural being, who could observe the present state of the universe without disturbing it. However, such models of the universe are not of much interest to us ordinary mortals. It seems better to employ the principle of economy known as Occam’s razor and cut out all the features of the theory that cannot be observed. This approach led Heisenberg, Erwin Schrodinger, and Paul Dirac in the 1920s to reformulate mechanics into a new theory called quantum mechanics, based on the uncertainty principle. In this theory particles no longer had separate, well-defined positions and velocities that could not be observed, Instead, they had a quantum state, which was a combination of position and velocity.</P>
scylla 2005-8-16 21:32
For over 90 years, there has been a concerted and relentless effort to disparage, denigrate and obliterate the reputations, names, and brilliance of the academic artistic masters of the late 19th Century. Fueled by a cooperative press, the ruling powers have held the global art establishment in an iron grip. Equally, there was a successful effort to remove from our institutions of higher learning all the methods, techniques and knowledge of how to train skilled artists. Five centuries of critical data was nearly thrown into the trash. It is incredible how close Modernist theory, backed by an enormous network of powerful and influential art dealers, came to acquiring complete control over thousands of museums, university art departments and journalistic art criticism. We at the <B>Art Renewal Center</B> have fully and fairly analyzed their theories and have found them wanting in every respect, devoid of substance and built on a labyrinth of easily disproved fallacies, suppositions and hypotheses.
zwjcool 2005-8-17 00:53
灌水啊灌啊[em41]的超级必杀啊[em02][em04][em06][em08][em10][em12][em14][em16][em18][em19][em20][em21][em22][em23][em22][em23]