丁锋8934
General relativity predicts a particularly dense dark objects. Evolution of massive stars in their late collapse occurs, the dense material in particular, it has one called "event horizon" of the closed border, a black hole hidden in a huge gravitational field, due to the gravitational field so strong, including in particular photon (ie the composition of light particles, the speed c = 3.0 × 10 ^ 8m / s), including any material can only be entered could not escape. The formation of a black hole minimum mass star's core is about three times the solar mass, of course, this is the last star of nuclear quality, rather than main sequence stars in the period of quality. In addition to this stellar-class black hole, there are other sources of black holes - the so-called micro-black holes may be formed in the early universe, the so-called supermassive black holes may exist in the central galaxy. A black hole can be found through the concept of electronic equipment. The black hole within its borders to prevent any outsiders to see anything, which is the object known as the "black hole" of the reason. We were unable to observe the reflection of light it can only be affected indirectly understand the objects around the black hole. Having said that, but the black hole still has its borders, namely "event horizon (horizon)." It is assumed that the evolution of stellar black hole of death matter, is in a special super-massive stars collapse generated. In addition, the quality of a black hole must be larger than the Chandrasekhar limit of stellar evolution to the end of the form, quality, smaller than the Chandrasekhar limit of the star is unable to form a black hole. 翻译成汉语就是下面的意思----广义相对论预言的一种特别致密的暗天体。大质量恒星在其演化末期发生塌缩,其物质特别致密,它有一个称为“视界”的封闭边界,黑洞中隐匿着巨大的引力场,因引力场特别强以至于包括光子(即组成光的微粒,速度c=3.0×10^8m/s)在内的任何物质只能进去而无法逃脱。形成黑洞的星核质量下限约3倍太阳质量,当然,这是最后的星核质量,而不是恒星在主序时期的质量。除了这种恒星级黑洞,也有其他来源的黑洞——所谓微型黑洞可能形成于宇宙早期,而所谓超大质量黑洞可能存在于星系中央。黑洞可以经由电子仪器观查到。 黑洞不让任何其边界以内的任何事物被外界看见,这就是这种物体被称为“黑洞”的缘故。我们无法通过光的反射来观察它,只能通过受其影响的周围物体来间接了解黑洞。虽然这么说,但黑洞还是有它的边界,即“事件视界(视界)”。据猜测,黑洞是死亡恒星的演化物,是在特殊的大质量超巨星坍缩时产生的。另外,黑洞必须是一颗质量大于钱德拉塞卡极限的恒星演化到末期而形成的,质量小于钱德拉塞卡极限的恒星是无法形成黑洞的。【希望这个可以帮助您】
oo鱼泡泡oo
General relativity predicts a particularly dense dark objects. Evolution of massive stars in their late collapse occurs, the dense material in particular, it has one called "event horizon" of the closed border, a black hole hidden in a huge gravitational field, due to the gravitational field so strong, including in particular photon (ie the composition of light particles, the speed c = 3.0 × 10 ^ 8m / s), including any material can only be entered could not escape. The formation of a black hole minimum mass star's core is about three times the solar mass, of course, this is the last star of nuclear quality, rather than main sequence stars in the period of quality. In addition to this stellar-class black hole, there are other sources of black holes - the so-called micro-black holes may be formed in the early universe, the so-called supermassive black holes may exist in the central galaxy. A black hole can be found through the concept of electronic equipment. The black hole within its borders to prevent any outsiders to see anything, which is the object known as the "black hole" of the reason. We were unable to observe the reflection of light it can only be affected indirectly understand the objects around the black hole. Having said that, but the black hole still has its borders, namely "event horizon (horizon)." It is assumed that the evolution of stellar black hole of death matter, is in a special super-massive stars collapse generated. In addition, the quality of a black hole must be larger than the Chandrasekhar limit of stellar evolution to the end of the form, quality, smaller than the Chandrasekhar limit of the star is unable to form a black hole. 翻译成汉语就是下面的意思----广义相对论预言的一种特别致密的暗天体。大质量恒星在其演化末期发生塌缩,其物质特别致密,它有一个称为“视界”的封闭边界,黑洞中隐匿着巨大的引力场,因引力场特别强以至于包括光子(即组成光的微粒,速度c=3.0×10^8m/s)在内的任何物质只能进去而无法逃脱。形成黑洞的星核质量下限约3倍太阳质量,当然,这是最后的星核质量,而不是恒星在主序时期的质量。除了这种恒星级黑洞,也有其他来源的黑洞——所谓微型黑洞可能形成于宇宙早期,而所谓超大质量黑洞可能存在于星系中央。黑洞可以经由电子仪器观查到。
风子武nandy
黑洞是现代广义相对论中,宇宙空间内存在的一种天体。黑洞的引力很大,使得视界内的逃逸速度大于光速。1916年,德国天文学家卡尔·史瓦西(Karl Schwarzschild)通过计算得到了爱因斯坦引力场方程的一个真空解,这个解表明,如果将大量物质集中于空间一点,其周围会产生奇异的现象,即在质点周围存在一个界面——“视界”一旦进入这个界面,即使光也无法逃脱。这种“不可思议的天体”被美国物理学家约翰·阿奇博尔德·惠勒(John Archibald Wheeler)命名为“黑洞”。“黑洞是时空曲率大到光都无法从其事件视界逃脱的天体”。[1-3] 黑洞无法直接观测,但可以借由间接方式得知其存在与质量,并且观测到它对其他事物的影响。借由物体被吸入之前的因高热而放出和γ射线的“边缘讯息”,可以获取黑洞存在的讯息。推测出黑洞的存在也可借由间接观测恒星或星际云气团绕行轨迹取得位置以及质量。希望我能帮助你解疑释惑。
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