three dimensional module

简明释义

三维模数

英英释义

例句

1.The medical imaging system utilizes a three dimensional module 三维模块 to provide detailed views of organs.

医疗成像系统利用一个三维模块 three dimensional module来提供器官的详细视图。

2.The architect designed a three dimensional module 三维模块 to visualize the building's layout.

建筑师设计了一个三维模块 three dimensional module来可视化建筑的布局。

3.We implemented a three dimensional module 三维模块 in our educational software for better learning experiences.

我们在教育软件中实施了一个三维模块 three dimensional module以提供更好的学习体验。

4.The game developers used a three dimensional module 三维模块 to create realistic game environments.

游戏开发者使用了一个三维模块 three dimensional module来创建逼真的游戏环境。

5.In our robotics class, we created a three dimensional module 三维模块 to simulate robotic movements.

在我们的机器人课程中，我们创建了一个三维模块 three dimensional module来模拟机器人的运动。

作文

In recent years, the concept of a three dimensional module has gained significant attention in various fields, particularly in education, architecture, and technology. A three dimensional module refers to a unit or component that possesses three dimensions: length, width, and height. This concept is vital in creating realistic representations of objects, structures, and environments, allowing for better understanding and interaction. One of the most prominent applications of three dimensional modules is in the field of education. Educators have increasingly adopted these modules to enhance the learning experience for students. For instance, in subjects such as mathematics and science, students can benefit from visualizing complex concepts through physical models. A three dimensional module can provide a tangible representation of abstract ideas, making it easier for students to grasp difficult topics. By manipulating these modules, learners can engage in hands-on activities that promote critical thinking and problem-solving skills. In architecture, three dimensional modules play a crucial role in the design and construction process. Architects use these modules to create scale models of buildings and structures, allowing them to visualize their designs before actual construction begins. This practice not only aids in identifying potential design flaws but also helps in communicating ideas more effectively to clients and stakeholders. Additionally, with advancements in technology, architects now utilize software that enables the creation of digital three dimensional modules. These virtual models provide an even more detailed and accurate representation of architectural designs, facilitating better planning and execution of projects. The technological industry has also seen a surge in the use of three dimensional modules, particularly in the realm of computer graphics and virtual reality. Game developers and animators rely on three dimensional modules to create immersive environments and characters that enhance the user experience. By employing sophisticated modeling techniques, they can produce lifelike representations that captivate audiences. Moreover, the integration of three dimensional modules in virtual reality applications allows users to interact with digital content in a more intuitive way, bridging the gap between the physical and digital worlds. Furthermore, the rise of 3D printing technology has revolutionized the production of three dimensional modules. This innovative approach enables the creation of custom modules tailored to specific needs and requirements. Industries ranging from healthcare to manufacturing have embraced 3D printing to produce prototypes, medical implants, and even intricate components for machinery. The ability to quickly and efficiently produce three dimensional modules has significantly reduced costs and time associated with traditional manufacturing processes. In conclusion, the significance of three dimensional modules cannot be overstated. Their applications span across various fields, enhancing education, improving architectural design, advancing technology, and transforming manufacturing processes. As we continue to explore new ways to utilize three dimensional modules, it is essential to recognize their potential in shaping the future of innovation and creativity. By embracing this concept, we can unlock new possibilities and pave the way for a more interactive and engaging world.

近年来，三维模块的概念在各个领域引起了显著关注，特别是在教育、建筑和技术方面。三维模块指的是具有三个维度的单元或组件：长度、宽度和高度。这个概念在创建物体、结构和环境的现实表示中至关重要，使得更好地理解和互动成为可能。三维模块最显著的应用之一是在教育领域。教育工作者越来越多地采用这些模块来增强学生的学习体验。例如，在数学和科学等学科中，学生可以通过物理模型可视化复杂的概念，从而受益匪浅。三维模块可以提供抽象思想的具体表现，使学生更容易掌握困难的主题。通过操纵这些模块，学习者可以参与动手活动，促进批判性思维和解决问题的能力。在建筑领域，三维模块在设计和施工过程中发挥着至关重要的作用。建筑师使用这些模块创建建筑和结构的比例模型，使他们在实际施工开始之前能够可视化其设计。这种做法不仅有助于识别潜在的设计缺陷，还帮助更有效地与客户和利益相关者沟通。此外，随着技术的进步，建筑师现在利用软件创建数字三维模块。这些虚拟模型提供了更详细和准确的建筑设计表示，促进了项目的更好规划和执行。技术行业也看到了三维模块使用的激增，特别是在计算机图形和虚拟现实领域。游戏开发者和动画师依靠三维模块创建沉浸式环境和角色，以增强用户体验。通过采用复杂的建模技术，他们可以制作出引人入胜的逼真表现。此外，三维模块在虚拟现实应用中的整合使用户能够以更直观的方式与数字内容互动，缩小了物理世界和数字世界之间的差距。此外，3D打印技术的兴起彻底改变了三维模块的生产。这种创新的方法使得根据特定需求和要求创建定制模块成为可能。从医疗保健到制造业，各行各业都已经接受了3D打印，生产原型、医疗植入物甚至复杂的机械部件。快速高效地生产三维模块的能力显著降低了与传统制造过程相关的成本和时间。总之，三维模块的重要性不容小觑。它们的应用跨越多个领域，增强了教育、改善了建筑设计、推进了技术，并转变了制造过程。随着我们继续探索利用三维模块的新方法，认识到它们在塑造未来创新和创造力方面的潜力至关重要。通过拥抱这一概念，我们可以解锁新的可能性，为一个更加互动和引人入胜的世界铺平道路。