spherically

简明释义

英[ˈsferɪkli]美[ˈsfɪrɪkliˌˈsferɪkli]

adv. 球地；球状地

英英释义

单词用法

同义词

反义词

例句

1.It makes sense to draw the wave function as a circle, because we do know that 1 s orbitals are spherically symmetric.

把波函数画成一个圆是有道理的，因为我们知道1s轨道是球对称的。

2.Computer simulation using spherically symmetric conductor head model demonstrates that the method is effective.

导体模型下的模拟计算表明，这一方法是有效的。

3.Spherically interpolates between two vectors.

球形插值在两个向量之间。

4.Trasmission properties of symmetrically guided modes excited by a spherically symmetrical impulsive point source in fluid-filled tube are investigated.

本文分析了充流体管中由点源激发的对称模式弹性波。

5.Ballas is a non-faceted, polycrystalline spherically grown diamond having a radial structure.

半刚石是一种具有径向结构的非多面、聚晶球状金刚石。

6.The focusing properties of Gaussian beams passing through two types of spherically aberrated lenses are studied and compared.

通过研究，比较了高斯光束通过两种不同球差透镜的聚焦特性。

7.In physics, we often consider forces acting spherically 球形地 around a point mass.

在物理学中，我们经常考虑作用在点质量周围的力是spherically 球形地 分布的。

8.When designing the new satellite, engineers ensured that it was balanced spherically 球形地 to avoid any rotation issues.

在设计新的卫星时，工程师确保它spherically 球形地 平衡，以避免任何旋转问题。

9.The Earth is not a perfect sphere, but it is approximately spherically 球形地 shaped.

地球并不是一个完美的球体，但它大致上是spherically 球形地 形成的。

10.The artist sculpted the statue to appear spherically 球形地 rounded and smooth.

艺术家将雕像雕刻得看起来spherically 球形地 圆润光滑。

11.The molecules in the gas spread out spherically 球形地 from the center of the balloon.

气体中的分子从气球的中心spherically 球形地 扩散开来。

作文

In the vast expanse of the universe, celestial bodies are often described in terms of their shapes and properties. One of the most fundamental shapes observed is that of a sphere. When we consider planets, stars, and even smaller objects like asteroids, they are generally not perfect spheres, but they do exhibit a tendency to be shaped spherically (球形地). This tendency arises from the force of gravity, which pulls matter towards the center of mass, resulting in a rounded shape. The concept of being spherically (球形地) symmetrical is crucial in understanding the dynamics of these celestial bodies. For instance, when a planet forms, it accumulates material from its surroundings. As this material comes together, the gravitational forces at play cause it to collapse into a shape that minimizes potential energy, leading to a spherically (球形地) shaped object. This is why Earth and other planets appear round when viewed from space.Moreover, the spherically (球形地) symmetric nature of these bodies has significant implications for their atmospheres and weather patterns. On Earth, the spherical shape allows for a more even distribution of sunlight across the planet's surface, which is essential for maintaining climate balance. The equator receives more direct sunlight compared to the poles, leading to diverse climatic zones that are vital for supporting various ecosystems.Additionally, the spherically (球形地) shaped Earth influences ocean currents and wind patterns. These natural phenomena are driven by the rotation of the planet and the uneven heating of its surface. The spherical geometry plays a critical role in how these systems interact, ultimately affecting weather conditions around the globe.In physics, the concept of spherically (球形地) symmetric distributions is also essential. For example, when studying electric fields or gravitational fields, scientists often assume a spherically (球形地) symmetric distribution of charge or mass. This simplification allows for easier calculations and a better understanding of how forces behave in three-dimensional space. Moreover, in the field of optics, lenses are designed to bend light in a way that is often spherically (球形地) symmetric. This design ensures that light rays entering the lens are focused correctly, producing clear images. Understanding how light interacts with spherically (球形地) shaped surfaces is crucial for developing effective optical devices, from cameras to microscopes. In conclusion, the concept of being spherically (球形地) shaped is not just a matter of aesthetics; it is a fundamental aspect of our universe that influences everything from the formation of planets to the behavior of light. Recognizing the importance of spherical shapes helps us appreciate the intricate balance of forces that govern the natural world. Whether we are gazing at the night sky or using a lens to magnify an object, the spherically (球形地) symmetrical nature of our universe plays a pivotal role in our understanding of both science and nature. By studying these principles, we can deepen our appreciation for the beauty and complexity of the world around us.

在广袤的宇宙中，天体常常以其形状和特性来描述。其中一个最基本的形状是球体。当我们考虑行星、恒星甚至小一些的物体如小行星时，它们通常不是完美的球体，但确实展现出呈现出spherically(球形地)的趋势。这种趋势源于重力的作用，它将物质拉向质量中心，从而形成圆形的形状。spherically(球形地)对称的概念在理解这些天体的动态时至关重要。例如，当一颗行星形成时，它从周围积累物质。当这些物质聚集在一起时，重力作用使其崩溃成一种最小化潜能的形状，导致形成一个spherically(球形地)的物体。这就是为什么地球和其他行星从太空中看起来是圆的原因。此外，这些天体的spherically(球形地)对称特性对它们的大气层和天气模式有着重要影响。在地球上，球形的形状使阳光能够更均匀地分布在地球表面，这对于维持气候平衡至关重要。赤道接受的阳光比两极更直接，导致多样的气候区，这对于支持各种生态系统至关重要。此外，spherically(球形地)形状的地球影响着海洋洋流和风的模式。这些自然现象由地球的自转和其表面的不均匀加热驱动。球形几何在这些系统如何相互作用中起着关键作用，最终影响全球的天气条件。在物理学中，spherically(球形地)对称分布的概念也是至关重要的。例如，在研究电场或引力场时，科学家经常假设电荷或质量的分布是spherically(球形地)对称的。这种简化使计算变得更容易，并更好地理解在三维空间中力量是如何表现的。此外，在光学领域，透镜的设计通常是为了以spherically(球形地)对称的方式弯曲光线。这样的设计确保进入透镜的光线能够正确聚焦，产生清晰的图像。理解光如何与spherically(球形地)形状的表面相互作用对开发有效的光学设备至关重要，从相机到显微镜。总之，spherically(球形地)形状的概念不仅仅是审美的问题；它是我们宇宙的一个基本方面，影响着从行星的形成到光的行为的一切。认识到球形形状的重要性帮助我们欣赏支配自然界的力量之间的复杂平衡。无论我们是在仰望夜空还是使用透镜放大物体，宇宙的spherically(球形地)对称特性在我们理解科学和自然方面发挥着关键作用。通过研究这些原则，我们可以加深对周围世界的美丽和复杂性的欣赏。