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- The cosmological redshift is not a normal Doppler shift. 宇宙学的红移并不是平常的都卜勒偏移。
- The Doppler redshift and the cosmological redshift are governed by two distinct formulas. 都卜勒红移和宇宙学红移是由两个截然不同的准则所支配。
- cosmological redshift 宇宙学红移
- One possibility was that this CMB region was not actually very cold but light from the spot somehow became less cosmologically redshifted than normal along the way. 有一个可能是这个CMB区域实际上不是非常冷,但从点发出的光可能是因为宇宙红移比正常移动少而造成。
- The foreground galaxy lies at a redshift of 0.39. 前台银河在于在红移为0.;39。
- There is a cosmological arrow of time. 还有一个宇宙学的时间指针。
- The quasar lies at a redshift of 1.41. 类星体是在红移1.;41。
- The cosmological argument does not stand up under scrutiny. 宇宙成因论经不起仔细推敲。
- They can be used to test cosmological theories,” says Lamer. 它们可以用来检验宇宙学理论。”
- Spacetime must be somehow granular to tame the dubious infinite redshift. 时空必须要有某种颗粒性来驯服暧昧的无限红移。
- Misunderstandings about the relation between redshift and velocity abound. 关于红移与速度之间的关系,也有不少误解。
- Redshift is a measure of how fast a celestial object is moving relative to us. 红移可以用来计算一个天体相对我们运动的速度。
- This effect, known as gravitational redshift, is not specific to black holes. 这种称做重力红移的效应,并不是黑洞所特有。
- If the cosmological principle is so successful, why should we question it? 如果宇宙学原理如此成功,为什么我们还要质疑它呢?
- Modern cosmological models address, the universe was fromthe Big Bang. 宇宙学模型提供了星相学的哲学原理。
- The modern cosmological models give a very dismay future of the universe. 现代宇宙学模型给出了一个非常令人恐慌的宇宙未来。
- The redshift caused by the expansion is often confused with the more familiar redshift generated by the Doppler effect. 膨胀所造成的红移,常会和我们比较熟悉的都卜勒效应所产生的红移搞混。
- This experimental test imposes restrictions on the kind of cosmological models that are considered. 这种实验检验给那些人们正在考虑的宇宙论模型施加了限制。
- Astronomers can deduce the recession velocity of a supernova by measuring the redshift of the light from the galaxy in which it lies. 天文学家得知超新星与我们远离速率的方法,主要是透过其所属星系的红移来判定。
- The redshift means that the quasars are very far away, more distant than the most distant galaxies we can see. 红移意味着类星体是非常非常遥远的天体,比我们观测到的最遥远的星体还要远。
