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General Discussion / Re: Iron Solomon
« on: September 02, 2009, 11:38:02 AM »
you betcha.my favorite battle cats: thesaurus & illmaculate
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im not afraid of anyone, not even you, so the answer to your question is.....im looking foward to meeting one of these cats face to face, i dont care if its around his hood or mine, id meet him anywhere, if he wants a square dance then square dance it is, two men only on a square dance nicca lol
im not afraid of any of these cats
you are treading on dangerous territory here my friend, im all for freedom of speech, but its often prudent to do one's research and appreciate any said subject matter before you hurl slander at it and try to demean it with idiotic statements...Muslims have and still are taking too much crap from people who simply do NOT UNDERSTAND the religion. what say you let this one go and play your hand at something else
This great explosion involves many fine gradations and details, prodding one to reflection, and these matters unaccountable for by coincidence.
The temperature at each moment of the explosion, the number of atomic particles, the forces involved, and their intensity must be of very precise values. Even if only one of these values was not specified, the universe we live in today would not be formed. This end would be inevitable if any one of the abovementioned values deviated by any value mathematically close to "0".
In short, the universe and its building blocks, the atoms, have come to exist in the immediate aftermath of the Big Bang after having not existed, thanks to these balances created by God. Scientists conducted numerous researches to understand the chronology of the events that took place during this process and the order of the rules of physics in effect at each phase. The facts all scientists who have worked on this subject today admit are as follows:
Moment "0": This "moment" when matter and time were non-existent, and when the explosion took place is accepted as t (time) = 0 in physics. This means that nothing exists at time t=0. In order to be able to describe earlier than this "moment" when creation was initiated, we must know the rules of physics that existed then, because the current laws of physics do not count for the first moments of the explosion.
The events that may be defined by physics start at 10-43 seconds, which is the smallest time unit. This is a time frame incomprehensible to the human mind. What happened in this small time period of which we cannot even conceive? Physicists have hitherto been unable to develop a theory that explains in full detail the events that took place at that moment.5
This is because scientists do not have the data required to make the calculations. The scope of the rules of mathematics and physics is at a dead-end at these limits. That is, both what went before and what happened at the first moments of this explosion, every detail of which rests on highly delicate balances, have a reality beyond the confines of the human mind and physics.
This creation, which started at before time, has led moment by moment to the formation of the material universe and the laws of physics. Now let us take a look at the incidents that occurred with great precision within a very short time during this explosion.
As mentioned above, in physics, everything can be calculated from 10–43 seconds onwards, and energy and time can be defined only after this moment. At this point of the creation, the temperature is 1032 (100,000,000,000,000,000,000,000,000,000,000) K. To draw a comparison, the temperature of the sun is expressed in millions (108) and the temperature of some stars much larger than the sun is expressed in billions (1011). That the highest measurable temperature at present is limited to billions of degrees reveals how high the temperature was at 10-43 seconds.
When we go one step further than this period of 10-43 seconds, we come to the point at which time is at 10-37 seconds. The time lapse between these two periods is not something like one or two seconds. We are talking about a time lapse as short as one over quadrillion times quadrillion of a second. The temperature is still extraordinarily high, at 1029 (100,000,000,000,000,000,000,000,000,000) K. No atoms were yet created at this stage.6
One more step, and we are at 10-2 seconds. This time period indicates one hundredth of a second. By now, the temperature is 100 billion degrees. At this point, the "early universe" has started to form. Particles like the proton and neutron forming the nucleus of the atom have not yet appeared. There is only the electron and its antiparticle, the positron (anti-electron), because the temperature and speed of the universe at that point only allow the formation of these particles. In less than a second after the explosion has taken place out of nothing, electrons and positrons have formed.
From this moment on, the time of the formation of each sub-atomic particle is very important. Every particle has to emerge at a specific moment so that the current rules of physics may be established. It is of great importance which particle is to form first. Even a slight deviation in the sequence or timing would make it impossible for the universe to take its current shape.
Let us stop now and do some thinking.
The Big Bang theory provides evidence for Allah's being by showing that all matter comprising the universe originated from nothingness. It did even more and showed that the building blocks – the atoms – also came into existence from nothing less than one second after the Big Bang. The enormous equilibrium and order in these particles are worthy of note. The universe owes its present state to this equilibrium that will be described in more detail in the pages ahead. It is again this equilibrium that allows us to live a peaceful life. In short, perfect order and un-changing laws, "the laws of physics", have formed following an explosion that would normally be expected to create great turmoil and disorder. This proves that each moment following the creation of the universe, including the Big Bang, has been designed perfectly.
Now, let us continue looking at the developments from where we left off.
The next step is the moment at which a time of 10-1 seconds has elapsed. At this moment, the temperature is 30 billion degrees. Not even one second has elapsed from t = 0 moment to this stage. By now, neutrons and protons, the other particles of the atom, have started to appear. The neutrons and protons, the perfect structures of which we will analyse in the following sections, were created out of nothing within a time period even shorter than a second.
Let us come to the first second after the explosion. The ma**ive density at this time again gives a colossal figure. According to calculations, the density value of the ma** present at that stage is 3.8 billion kilograms per litre. It may be easy to express this figure, termed as billions of kilograms, arithmetically, and to show it on paper. Yet, it is impossible to conceive of this figure exactly. To give a very simple example to express the magnitude of this figure, we can say "if Mount Everest in the Himalayas had this density, it could swallow our world in a moment with the force of gravitation it would possess."7
The most distinctive characteristic of the subsequent moments is that by then, the temperature has reached a considerably lower level. At that stage, the universe is approximately 14 seconds old, has a temperature of 3 billion degrees and continues to expand at a dramatic speed.
This is the stage where the steady atomic nuclei, like hydrogen and helium nuclei, have started to form. One proton and one neutron have for the first time found conditions conducive to their co-existing. These two particles, which have a ma** straddling the line between existence and non-existence, have, because of the force of gravitation, started resisting the tremendous rate of expansion. It is obvious that a dramatically conscious and controlled process is in progress here. A ma**ive explosion gives way to great equilibrium and precise order. Protons and neutrons have started to come together to form the atom, the building block of matter. It is certainly totally impossible for these particles to have the power and consciousness to establish the delicate balances required for the formation of matter.
During the epoch following this formation, the temperature of the universe has dropped to one billion degrees. This temperature is 60 times the temperature at the core of our sun. Only 3 minutes and 2 seconds have elapsed from the first instant to this one. By now, sub-atomic particles like photons, protons, anti protons, neutrinos and anti-neutrinos are abundant. The quantities of all the particles existing in this phase and their interactions with each other are extremely critical. So much so that the slightest variation in the quantity of any particle will destroy the energy level set by them and prevent the conversion of energy into matter.
Take electrons and positrons for example: when electrons and positrons come together, energy is produced. Therefore, the numbers of both particles are very important. Let us say that 10 units of electrons and 8 units of positrons meet. In this case, 8 of the 10 units of electrons interact with 8 units of positrons and produce energy. As a result, 2 units of electrons are released. Since the electron is one of the particles forming the atom that is the building block of the universe, it has to be available in required quantities in this stage so that the universe may exist. To take up the abovementioned example, if the number of positrons was more than that of the electrons, then positrons would be left over instead of electrons as a result of the energy released and the material universe would never be formed. If the numbers of positrons and electrons were equal, then only energy would be produced and nothing left to form the material universe. Yet, this excess in the number of electrons has been arranged in such a way as to match the number of protons in the universe in the time that follows this moment. In the atom that will form later on, the numbers of electrons and protons will be equal.
The numbers of particles that emerged in the aftermath of the Big Bang were determined with so precise a calculation, finally leading to the formation of the material universe. Professor Steven Weinberg remarks on how critical is the interaction between these particles:
If the universe in the first few minutes was really composed of precisely equal numbers of particles and antiparticles, they would all have annihilated as the temperature dropped below 1,000 million degrees, and nothing would be left but radiation. There is a very good evidence against this possibility – we are here! There must have been some excess of electrons over positrons, of protons over antiprotons, and of neutrons over antineutrons, in order that there would be something left over after the annihilation of particles and antiparticles to furnish the matter of the present universe.8
A total of 34 minutes and 40 seconds have pa**ed since the outset. Our universe is now half an hour old. The temperature has dropped from degrees expressed in billions to 300 million degrees. The electrons and positrons continue producing energy by colliding with each other. By now, the quantities of the particles that are to form the universe have been balanced to allow the formation of the material universe.
Once the rate of the explosion slows down, these particles, almost lacking a ma**, start to interact with one another. The first hydrogen atom forms by an electron settling into the orbit of a proton. This formation introduces us to the fundamental forces we will commonly encounter in the universe.
It is no doubt impossible for these particles, which are products of a design far beyond human comprehension and have distinct structures resting on extremely delicate balances, to have come together through coincidence and to act towards the same goal. This perfection leads many researchers working on the subject to a very important conclusion: it is a "creation" and there is a matchless supervision of every moment of this creation. Each particle that is created after the explosion is supposed to form at a specific time, at a specific temperature and at a specific velocity. It seems that this system, which runs almost like a wound-up clock, had been programmed with such fine-tuning before becoming active. This means that the Big Bang and the perfect universe that originated as a result of the Big Bang had been designed before the inception of the explosion and afterwards put into action.
Munetsi is gonna have a field day with this. can't wait.
is this really munetsi ? this is WACK. "don't make me spaze out and freestyle on your album ?" is that the punchline
No-one said rappers had to be good at (simple) mathematics...