科技的起源不是在1829年,实际上是在大爆炸的开始,在宇宙中巨量亿万星球被压缩的时刻。
The origins of technology was not in 1829, but was actually at the beginning of the Big Bang, and at that moment the entire huge billions of stars in the universe were compressed.
微波背景是宇宙最早的形态,它发生在大爆炸之后仅仅300,000年;一般观点认为,其700,000年后第一批星球就已经结合。
The microwave background is the earliest snapshot of the universe, taken a mere 300,000 years after the Big Bang and almost 700,000 years before the first stars are thought to have coalesced.
这种温度条件我们一般认为是不存在的——可能只有在一些致密星球的核心——大概在120亿至150亿年前宇宙大爆炸形成了如今的宇宙。
Such conditions are thought not to have existed - except possibly in the heart of some dense stars - since the Big Bang that formed the universe between 12 billion and 15 billion years ago.
原本,他们是为了验证大爆炸之后形成的第一批星球以辐射波的形式保留下了一些迹象;
The postulate they had planned to test was that the first stars to form after the Big Bang would have left some signs of themselves in the form of radio waves.
如果一个星球诞生时拥有8倍于太阳的质量,那么在它毁灭时就会发生一次超级大爆炸,即我们熟知的超新星。
If a star begins life with more than 8 times the Sun's mass, it will end its life in a Titanic explosion known as a supernova.
在被称为超新星的星球爆炸时,中微子被以巨量制造出来,而且他们虚无缥缈让他们逃脱大爆炸密度超级大的核心而不受阻碍。
Neutrinos are generated in prodigious quantities in stellar explosions known as supernovas, and their ghostliness lets them escape the superdense centre of such an explosion unhindered.
在被称为超新星的星球爆炸时,中微子被以巨量制造出来,而且他们虚无缥缈让他们逃脱大爆炸密度超级大的核心而不受阻碍。
Neutrinos are generated in prodigious quantities in stellar explosions known as supernovas, and their ghostliness lets them escape the superdense centre of such an explosion unhindered.
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