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物理 中英
循環(huán)的宇宙------閉合宇宙的模型
Model of Cyclic Universe – Closed Universe
二十世紀(jì)初期��,天文學(xué)家哈勃完成了一個(gè)基礎(chǔ)性的發(fā)現(xiàn)�����,星系的譜線都呈紅位移狀態(tài)����,因此他推斷根據(jù)多普勒效應(yīng)���,星系都在離我們遠(yuǎn)去。比較距離與紅位移量后�,發(fā)現(xiàn)越遠(yuǎn)的星系遠(yuǎn)離我們的速度越快,結(jié)論是宇宙仍在膨脹�。
In the early 20th century, the astronomer Hubble got a fundamental finding that the spectral lines of all galaxies had a red shift, therefore he inferred that according to the Doppler Effect, all galaxies were getting away from us. After a comparison of distances and quantities red shifts, he found that the farther a galaxy is, the faster it is traveling away from us. The conclusion was the universe is still expanding.
黑洞按新以太的假設(shè),黑洞的以太密度演化的極端形式�,黑洞最初不過(guò)是個(gè)夸克�?淇私Y(jié)成物質(zhì),在宇宙膨脹的初級(jí)價(jià)段物質(zhì)相對(duì)密集���,生成了超出我們想象的超大質(zhì)量恒星���。在其衰老過(guò)程中因自身質(zhì)量過(guò)大而向內(nèi)垮塌(超新星爆發(fā))��。因質(zhì)量的大小而形成脈沖星����、中子星���、夸克星���,質(zhì)量大到一定值的生成黑洞。它消滅了物質(zhì)的波狀核����,把基微子直接壓縮成最小的狀態(tài),如同空氣的‘液體’狀態(tài)�。它的強(qiáng)大引力吸引周?chē)囊蕴托求w向其垮塌形成星系的旋轉(zhuǎn)的盤(pán)狀結(jié)構(gòu)。星體在接近黑洞時(shí)��,星體的物質(zhì)結(jié)構(gòu)被撕裂�,這是奇怪的向心核裂變。物質(zhì)還原為波的狀態(tài)(輻射)被黑洞抽絲剝繭般的吸收(所以所有射向它的電磁波直接被吸收��,而不會(huì)被反射回來(lái)被觀測(cè)到。)這可稱(chēng)之為向心輻射�����。星系中的星體之所以沒(méi)有被黑洞迅速吞進(jìn)去���,是引力強(qiáng)度與速離成反比�����,黑洞引力巨大的威力更多的反映在引力壓差上����。不然兩星系合并的撞擊引起的爆炸強(qiáng)度比已知的超新星爆發(fā)大許多倍����,那又是一個(gè)天文數(shù)字�,其威力會(huì)影響鄰近星系團(tuán)的穩(wěn)定。在物質(zhì)被撕裂成電磁波時(shí)�,雜亂的輻射還是有小部分逃出黑洞的魔爪,而被觀測(cè)到��,(在觀察星系側(cè)向時(shí)會(huì)看到星系中心的光暈和軸向輻射)���。球狀星團(tuán)中心沒(méi)有黑洞��,它的中心可能是一個(gè)大質(zhì)量的恒星或大質(zhì)量的夸克星��,它周?chē)男求w因彼此的引力而互相靠近���。
According to the new ether hypothesis, the black hole is the extreme form of evolution of ether density that was just a quark at the beginning. The quark forms matters, which are relatively dense at the early stage of the cosmic expansion, creating super massive stars that are beyond our imagination. In their aging process, they collapse inward due to their excessively large mass (supernova explosion). Pulsars, neutron stars and quark stars are then created based on their mass. When the mass reaches a certain value, a black hole is created, which eliminates the wavy nucleus of matters and compresses the basic corpuscle directly into the smallest form, just like the “l(fā)iquid” state of air. Its strong gravitation attracts the surrounding ether and planets to collapse toward it, creating the disc-shaped structure of a galaxy. When planets are close to the black hole, their material structures are torn up creating a strange centripetal nuclear fission. Matters are recovered to the wave state (radiation) and absorbed by the black hole like stripping a cocoon (therefore, all electromagnetic waves directed to it are absorbed directly, other than being reflected and observed). This can be called centripetal radiation. The planets in the galaxy have not been swallowed by the black hole quickly because the intensity of the gravitation is inversely proportional to velocity. The mighty power of the gravitation of the black hole is reflected more in the gravitational differential pressure, otherwise the explosion intensity arising from the collision of two galaxies will by far be higher than that of the known supernova explosion and will become another astronomical figure, and its power will affect the stability of adjacent galaxy clusters. When matters are torn up into electromagnetic waves, a small part of the disordered radiation runs away from the black hole and can be observed (when a galaxy is observed laterally, the halo at the center of the galaxy and its axial radiation can be seen). There is no black hole at the center of a globular star cluster where there is possibly a massive star or quark star that has surrounding planets approaching one another due to the gravitation.
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翻譯樣本 
