cosmological

简明释义

英[ˌkɒzməˈlɒdʒɪkl]美[ˌkɑːzməˈlɑːdʒɪkl]

adj. 宇宙论的；宇宙哲学的

英英释义

单词用法

同义词

反义词

例句

1.Locke thought that you could prove the existence of God by a sort of cosmological argument.

洛克认为，可以通过一种宇宙论来证明上帝的存在。

2.He notes its double source in the Roman spirit of legal formulas and the Greek genius which conceived the world in cosmological terms.

他注意到它在法律规则的罗马精神和希腊天才人物以宇宙论术语构想的世界中的双重来源。

3.The first, second and third Ways of Aquinas’ arguments are often called variations of a more general argument, the Cosmological Argument.

因此必有某种事物是一开始就存在的，也就是人们理解意义上的上帝。阿奎那前三种论证方法通常被称为一种更通用的论证的变形——宇宙论论证。

4.To the more sophisticated societies of the ancient world, cosmological mystery was proof that there were many gods.

在远古世界较成熟的社会中，宇宙的种种奥秘被认为就是众神存在的证据。

5.Another exception is the "cosmological arrow of time," which points forward from the Big Bang in the direction of the universe's expansion.

另一个例外是“时间的宇宙箭头”，该箭头从大爆炸指向宇宙膨胀的方向，其可能与热力学箭头相连，指向宇宙最终的热寂。

6.The Big Bang model of cosmology rests on two key ideas that date back to the early 20th century: General Relativity and the Cosmological Principle.

宇宙学中的大爆炸模型可以追溯到20世纪初的两个核心思想：广义相对论和宇宙学原理。

7.With another roll of the cosmological dice the world's language would be Tagalog.

如果再掷一次宇宙骰子，世界语言可能会是塔加拉族语。

8.Many scientists are interested in cosmological 宇宙学的 models that explain dark matter.

许多科学家对解释暗物质的宇宙学的模型感兴趣。

9.The cosmological 宇宙学的 constant is a term in Einstein's equations of general relativity.

宇宙学的常数是爱因斯坦广义相对论方程中的一个术语。

10.Astronomers use cosmological 宇宙学的 observations to understand the expansion of the universe.

天文学家利用宇宙学的观察来理解宇宙的膨胀。

11.The concept of a multiverse is often discussed in cosmological 宇宙学的 theories.

多重宇宙的概念在宇宙学的理论中经常被讨论。

12.The study of the universe's origins is a key aspect of cosmological 宇宙学的 research.

对宇宙起源的研究是宇宙学的研究的一个关键方面。

作文

The universe has always been a subject of fascination for humanity. From ancient civilizations that gazed at the stars, to modern scientists exploring the depths of space, our quest to understand the cosmos has driven countless discoveries and advancements. One of the most intriguing aspects of this exploration is the study of the origin, evolution, and eventual fate of the universe, which falls under the umbrella of cosmological (宇宙学的) studies. This field encompasses a wide range of topics, including the Big Bang theory, cosmic inflation, dark matter, and dark energy, each contributing to our understanding of the vast expanse that surrounds us.The Big Bang theory, for instance, posits that the universe began as a singularity approximately 13.8 billion years ago. This event marked the inception of space and time, and from this point, the universe has been expanding ever since. The implications of this cosmological (宇宙学的) model are profound, suggesting that all matter and energy we observe today originated from a highly dense and hot state. Observational evidence, such as the cosmic microwave background radiation, supports this theory and provides insight into the early moments of the universe.Another significant aspect of cosmological (宇宙学的) research is the concept of cosmic inflation. This theory proposes that shortly after the Big Bang, the universe underwent a rapid expansion, growing exponentially in size within a fraction of a second. This expansion helps explain the uniformity of the cosmic microwave background and the large-scale structure of the universe we observe today. Through various experiments and observations, scientists have gathered substantial evidence supporting inflation, making it a cornerstone of modern cosmological (宇宙学的) theories.However, our understanding of the universe is not limited to its beginnings. The nature of dark matter and dark energy remains one of the most significant challenges in cosmological (宇宙学的) studies. Dark matter, which makes up about 27% of the universe, cannot be observed directly but is inferred through its gravitational effects on visible matter. Similarly, dark energy, accounting for approximately 68% of the universe, is thought to be responsible for the accelerated expansion of the universe. Together, these components play critical roles in shaping the universe's structure and fate.The implications of cosmological (宇宙学的) studies extend beyond mere academic inquiry; they challenge our understanding of existence itself. As we delve deeper into the mysteries of the universe, questions arise about the nature of reality, the possibility of multiverses, and the ultimate destiny of all matter and energy. The search for answers to these profound questions continues to inspire scientists and philosophers alike.In conclusion, the study of the universe through a cosmological (宇宙学的) lens offers a fascinating glimpse into the fundamental workings of reality. From the explosive beginnings of the Big Bang to the enigmatic forces of dark matter and dark energy, our quest to comprehend the cosmos is an ongoing journey filled with wonder and discovery. As technology advances and our observational capabilities improve, we can only hope to uncover more secrets of the universe, deepening our understanding of our place within it.

宇宙一直是人类着迷的主题。从古代文明仰望星空，到现代科学家探索太空深处，我们对宇宙的理解和探索推动了无数的发现和进步。这一探索中最引人入胜的方面之一是对宇宙起源、演化及最终命运的研究，这属于cosmological（宇宙学的）研究领域。该领域涵盖了许多主题，包括大爆炸理论、宇宙膨胀、暗物质和暗能量，每一个主题都为我们理解周围广袤的空间做出了贡献。例如，大爆炸理论认为，宇宙大约在138亿年前始于一个奇点。这个事件标志着空间和时间的开始，从这一点起，宇宙就一直在扩张。这个cosmological（宇宙学的）模型的意义深远，表明我们今天观察到的所有物质和能量都起源于一个高度致密和高温的状态。观测证据，如宇宙微波背景辐射，支持这一理论，并提供了对宇宙早期时刻的洞察。另一个重要的cosmological（宇宙学的）研究方面是宇宙膨胀的概念。该理论提出，在大爆炸之后不久，宇宙经历了一次快速的膨胀，在极短的时间内急剧增大。这种膨胀有助于解释宇宙微波背景的均匀性以及我们今天观察到的宇宙的大尺度结构。通过各种实验和观测，科学家们收集了大量支持膨胀的证据，使其成为现代cosmological（宇宙学的）理论的基石。然而，我们对宇宙的理解并不仅限于其起源。暗物质和暗能量的性质仍然是cosmological（宇宙学的）研究中最重要的挑战之一。暗物质占宇宙的约27%，无法直接观察，但通过其对可见物质的引力效应推断出来。同样，暗能量占宇宙的约68%，被认为是导致宇宙加速膨胀的原因。这些成分共同在塑造宇宙的结构和命运中发挥着关键作用。cosmological（宇宙学的）研究的影响超越了单纯的学术探讨；它们挑战着我们对存在本质的理解。当我们深入宇宙的奥秘时，关于现实本质、多重宇宙的可能性，以及所有物质和能量的最终命运等问题随之而来。寻找这些深刻问题的答案继续激励着科学家和哲学家。总之，通过cosmological（宇宙学的）视角研究宇宙，提供了对现实基本运作的迷人洞察。从大爆炸的爆炸性开端，到暗物质和暗能量的神秘力量，我们理解宇宙的探索是一段充满惊奇和发现的持续旅程。随着技术的进步和我们的观测能力的提高，我们只能希望揭示更多宇宙的秘密，深化我们对自身在其中位置的理解。