three dimensional space

简明释义

三维空间

英英释义

例句

1.Physics simulations often require calculations in three dimensional space 三维空间 to accurately predict movement.

物理模拟通常需要在三维空间 three dimensional space中进行计算，以准确预测运动。

2.In computer graphics, objects are modeled in three dimensional space 三维空间 to create realistic images.

在计算机图形学中，物体在三维空间 three dimensional space中建模以创建逼真的图像。

3.Virtual reality games immerse players in a three dimensional space 三维空间 that feels incredibly real.

虚拟现实游戏让玩家沉浸在一个感觉非常真实的三维空间 three dimensional space中。

4.3D modeling allows artists to create detailed sculptures in three dimensional space 三维空间 using digital tools.

3D建模允许艺术家使用数字工具在三维空间 three dimensional space中创建详细的雕塑。

5.Architects use software to visualize buildings in three dimensional space 三维空间 before construction.

建筑师在施工前使用软件将建筑物可视化为三维空间 three dimensional space中的样子。

作文

Three-dimensional space, often abbreviated as 3D空间, is a fundamental concept in geometry and physics. It refers to the physical universe we inhabit, which has three dimensions: length, width, and height. Understanding three-dimensional space is crucial for various fields such as architecture, engineering, computer graphics, and even art. In this essay, I will explore the significance of three-dimensional space in our daily lives and its applications in different disciplines.To begin with, let’s consider the importance of three-dimensional space in architecture. Architects must have a profound understanding of three-dimensional space to design buildings that are not only aesthetically pleasing but also structurally sound. They use tools like CAD (Computer-Aided Design) software to create models that represent structures in three-dimensional space. This allows them to visualize how a building will look and function before it is constructed. By manipulating objects within three-dimensional space, architects can experiment with various designs, ensuring that their creations meet both practical and artistic standards.In addition to architecture, three-dimensional space plays a vital role in engineering. Engineers apply principles of three-dimensional space to develop machines, vehicles, and various technologies. For instance, when designing an airplane, engineers must consider the aerodynamic properties of the aircraft in three-dimensional space. They analyze how air flows over the wings and fuselage, which requires a deep understanding of spatial relationships. Moreover, simulations and modeling in three-dimensional space help engineers predict how their designs will perform under different conditions, ultimately enhancing safety and efficiency.Moreover, the realm of computer graphics heavily relies on three-dimensional space. Video games, animations, and virtual reality environments are all created using three-dimensional space. Artists and developers use software to build intricate worlds where characters and objects exist within a three-dimensional space. This technology allows users to experience depth and realism, making interactions more engaging. The ability to manipulate objects in three-dimensional space enhances storytelling and user experience, transporting players into immersive environments.Art, too, has evolved with the understanding of three-dimensional space. Sculptors, for example, work directly within three-dimensional space to create their pieces. They must consider how light interacts with their sculptures from various angles and how the viewer perceives the artwork in real-time. Furthermore, modern artists often incorporate technology, using 3D printing and digital modeling to push the boundaries of traditional art forms. This fusion of technology and art exemplifies the versatility of three-dimensional space in creative expression.Lastly, our everyday experiences are deeply intertwined with three-dimensional space. When we navigate through our environment, we subconsciously use our understanding of three-dimensional space to avoid obstacles, judge distances, and interact with objects. Whether it's arranging furniture in a room or playing sports, our spatial awareness is essential for functioning effectively in the world around us.In conclusion, three-dimensional space is a multifaceted concept that is integral to numerous fields and aspects of life. From architecture and engineering to computer graphics and art, the ability to comprehend and manipulate three-dimensional space is vital for innovation and creativity. As technology continues to advance, our understanding of three-dimensional space will undoubtedly expand, leading to new possibilities and discoveries in various domains. Embracing this concept not only enhances our professional skills but also enriches our appreciation of the world we live in.

三维空间，通常缩写为3D空间，是几何和物理学中的一个基本概念。它指的是我们所居住的物质宇宙，具有三个维度：长度、宽度和高度。理解三维空间对于建筑、工程、计算机图形学甚至艺术等多个领域至关重要。在这篇文章中，我将探讨三维空间在我们日常生活中的重要性及其在不同学科中的应用。首先，让我们考虑一下三维空间在建筑学中的重要性。建筑师必须深刻理解三维空间，才能设计出既美观又结构合理的建筑。他们使用CAD（计算机辅助设计）软件创建模型，代表在三维空间中的结构。这使他们能够在建筑建造之前可视化建筑的外观和功能。通过操控三维空间中的物体，建筑师可以尝试各种设计，确保他们的创作符合实用和艺术标准。除了建筑学，三维空间在工程学中也扮演着至关重要的角色。工程师运用三维空间的原理开发机器、车辆和各种技术。例如，在设计飞机时，工程师必须考虑飞机在三维空间中的空气动力学特性。他们分析空气如何在机翼和机身上流动，这需要对空间关系有深入的理解。此外，在三维空间中的模拟和建模帮助工程师预测他们的设计在不同条件下的表现，从而最终提高安全性和效率。此外，计算机图形学领域在很大程度上依赖于三维空间。视频游戏、动画和虚拟现实环境都是使用三维空间创建的。艺术家和开发者使用软件构建复杂的世界，角色和物体存在于三维空间中。这项技术使用户能够体验深度和真实感，使互动更加引人入胜。在三维空间中操控物体的能力增强了叙事和用户体验，将玩家带入沉浸式环境。艺术同样随着对三维空间的理解而发展。雕塑家例如，直接在三维空间中工作以创建他们的作品。他们必须考虑光线从不同角度与其雕塑的相互作用，以及观众如何实时感知艺术品。此外，现代艺术家经常结合技术，使用3D打印和数字建模推动传统艺术形式的边界。这种技术与艺术的融合体现了三维空间在创造性表达中的多样性。最后，我们的日常体验与三维空间密切相关。当我们在环境中导航时，我们潜意识中利用对三维空间的理解来避免障碍、判断距离和与物体互动。无论是安排房间里的家具还是进行运动，我们的空间意识对于有效地在周围世界中运作至关重要。总之，三维空间是一个多方面的概念，对多个领域和生活的各个方面至关重要。从建筑和工程到计算机图形学和艺术，理解和操控三维空间的能力对于创新和创造力至关重要。随着技术的不断进步，我们对三维空间的理解无疑会扩展，从而在各个领域带来新的可能性和发现。接受这一概念不仅增强了我们的专业技能，也丰富了我们对生活世界的欣赏。