cosmologically

简明释义

英[ˌkɒzməˈlɒdʒɪkli]美[ˌkɑzməˈlɑdʒɪkli]

宇宙论地

英英释义

单词用法

同义词

反义词

例句

1.This form of matter also has no cosmologically significant pressure.

这种形式的物质在宇宙学尺度上也是无关紧要的，对膨胀或坍缩几乎没有贡献。

2.This form of matter also has no cosmologically significant pressure.

这种形式的物质在宇宙学尺度上也是无关紧要的，对膨胀或坍缩几乎没有贡献。

3.The universe is believed to have originated from a singularity, which is explained cosmologically 宇宙学上 in the Big Bang theory.

宇宙被认为起源于一个奇点，这在大爆炸理论中被宇宙学上解释。

4.When we look at distant galaxies, we are seeing them as they were billions of years ago, which helps us understand the universe cosmologically 宇宙学上.

当我们观察遥远的星系时，我们看到的是它们数十亿年前的样子，这帮助我们从宇宙学上理解宇宙。

5.The concept of dark matter is crucial cosmologically 宇宙学上 for explaining the structure of the universe.

暗物质的概念在宇宙学上对于解释宇宙结构至关重要。

6.Scientists study cosmic microwave background radiation cosmologically 宇宙学上 to gain insights into the early universe.

科学家研究宇宙微波背景辐射，从宇宙学上获得对早期宇宙的见解。

7.The expansion of the universe can be understood cosmologically 宇宙学上 through Hubble's Law.

宇宙的膨胀可以通过哈勃定律从宇宙学上理解。

作文

In recent years, the field of cosmology has gained immense popularity, captivating the minds of both scientists and the general public. Cosmology, the study of the universe's origins, evolution, and eventual fate, raises profound questions about our existence and the nature of reality. One intriguing aspect of cosmology is how it connects to our understanding of time and space. When we explore the universe on a grand scale, we begin to appreciate the complexities that govern celestial bodies and their interactions. This exploration leads us to consider not just the physical aspects of the cosmos but also the philosophical implications of our findings. For instance, when we think about the universe cosmologically (宇宙学地), we are compelled to confront the idea that our planet is merely a speck in an incomprehensibly vast expanse. This perspective can be both humbling and awe-inspiring. The concept of the Big Bang theory serves as a cornerstone in modern cosmological studies. According to this theory, the universe began approximately 13.8 billion years ago from a singularity—a point of infinite density and temperature. As the universe expanded, it cooled, allowing for the formation of matter, stars, galaxies, and eventually planets. Understanding this process is crucial for comprehending our place in the cosmos. The implications of the Big Bang extend beyond mere scientific inquiry; they challenge our understanding of existence itself. When we ponder these ideas cosmologically (宇宙学地), we recognize that the universe is dynamic and ever-changing, which reflects the transient nature of life on Earth. Moreover, advancements in technology have allowed astronomers to observe distant galaxies and cosmic phenomena, providing evidence that supports various cosmological theories. Telescopes equipped with sophisticated instruments enable us to glimpse into the past, observing light that has traveled billions of years to reach us. This ability to look back in time enriches our understanding of the universe cosmologically (宇宙学地). It opens up discussions about the possibility of extraterrestrial life and the conditions necessary for life to exist elsewhere in the universe. As we delve deeper into the mysteries of the cosmos, we also encounter the concept of dark matter and dark energy, which together make up about 95% of the universe. These components remain largely elusive, yet they play a critical role in shaping the structure and behavior of the cosmos. The existence of dark matter, which does not emit light or energy, challenges our traditional understanding of physics and compels us to rethink our models cosmologically (宇宙学地). Similarly, dark energy, thought to be responsible for the accelerated expansion of the universe, raises further questions about the fundamental forces at play in the cosmos. In conclusion, studying the universe cosmologically (宇宙学地) not only expands our knowledge of the physical world but also invites us to reflect on our place within it. As we continue to explore the cosmos, we are reminded of the intricate connections between science, philosophy, and the human experience. The more we learn, the more we realize that the universe is a complex tapestry woven from countless threads of existence, each contributing to the larger narrative of reality. This journey into the depths of space and time inspires a sense of wonder and curiosity that transcends boundaries, urging us to seek answers to the most profound questions of life.

近年来，宇宙学领域获得了巨大的关注，吸引了科学家和公众的目光。宇宙学是研究宇宙的起源、演变和最终命运的学科，它提出了关于我们存在和现实本质的深刻问题。宇宙学的一个有趣方面是它如何与我们对时间和空间的理解相联系。当我们在宏观尺度上探索宇宙时，我们开始欣赏支配天体及其相互作用的复杂性。这种探索使我们不仅考虑宇宙的物理方面，还考虑我们发现的哲学意义。例如，当我们从宇宙学地（cosmologically）的角度思考宇宙时，我们不得不面对这样一个想法：我们的星球仅仅是一个不可思议浩瀚空间中的小点。这种视角既让人谦卑，也令人敬畏。 大爆炸理论是现代宇宙学研究的基石之一。根据这一理论，宇宙大约在138亿年前从一个奇点开始——一个无限密度和温度的点。随着宇宙的扩张，它冷却下来，使物质、星星、星系和最终行星的形成成为可能。理解这一过程对于理解我们在宇宙中的位置至关重要。大爆炸的影响超越了单纯的科学探究；它挑战了我们对存在本身的理解。当我们从宇宙学地（cosmologically）的角度思考这些思想时，我们意识到宇宙是动态和不断变化的，这反映了地球上生命的短暂性质。 此外，科技的进步使天文学家能够观察遥远的星系和宇宙现象，从而提供支持各种宇宙学理论的证据。配备先进仪器的望远镜使我们能够窥见过去，观察那些已旅行数十亿年才到达我们的光。这种回顾时间的能力丰富了我们对宇宙的理解宇宙学地（cosmologically）。它开启了关于外星生命可能性的讨论，以及其他地方存在生命所需的条件。 随着我们深入探索宇宙的奥秘，我们还遇到了暗物质和暗能量的概念，它们共同构成了宇宙约95%的部分。这些成分仍然在很大程度上难以捉摸，但它们在塑造宇宙的结构和行为方面发挥着关键作用。暗物质的存在并不发出光或能量，这挑战了我们对物理学的传统理解，并迫使我们重新思考我们的模型宇宙学地（cosmologically）。类似地，被认为负责宇宙加速膨胀的暗能量进一步引发了关于宇宙中基本力量的质疑。 总之，从宇宙学地（cosmologically）研究宇宙不仅扩展了我们对物质世界的知识，还邀请我们反思自己在其中的位置。随着我们继续探索宇宙，我们被提醒科学、哲学和人类体验之间的复杂联系。我们学到的越多，就越意识到宇宙是由无数存在的线索编织而成的复杂挂毯，每一条都为现实的更大叙述做出贡献。这段进入空间和时间深处的旅程激发了一种超越界限的敬畏和好奇感，促使我们寻求对生命最深刻问题的答案。