self contained system

简明释义

独立装置

英英释义

例句

1.In engineering, a self contained system can operate independently without outside input.

在工程学中，自给自足的系统可以独立运行，无需外部输入。

2.The research lab operates as a self contained system with all necessary equipment on-site.

该研究实验室作为一个自给自足的系统运作，现场配备了所有必要的设备。

3.The new software is designed as a self contained system that requires no external dependencies.

这款新软件被设计为一个自给自足的系统，不需要外部依赖。

4.Each module in our project is a self contained system, making integration easier.

我们项目中的每个模块都是一个自给自足的系统，使得集成更容易。

5.The portable generator is a self contained system that provides power anywhere.

这个便携式发电机是一个自给自足的系统，可以在任何地方提供电力。

作文

In today's rapidly evolving world, the concept of a self contained system has gained significant attention across various fields, including technology, ecology, and even education. A self contained system refers to a system that is complete in itself, capable of functioning independently without relying on external inputs. This idea can be seen in numerous examples, ranging from ecosystems to technological devices. Understanding the principles behind a self contained system can lead to more sustainable practices and innovative solutions to complex problems.One of the most striking examples of a self contained system is found in nature. Ecosystems often operate as self contained systems, where various organisms interact with each other and their environment to create a balanced and sustainable habitat. For instance, a forest ecosystem includes trees, plants, animals, and microorganisms that all play vital roles in maintaining the health of that environment. The trees provide oxygen, while animals contribute to seed dispersal and nutrient cycling. This interdependence allows the ecosystem to thrive without needing outside resources, showcasing the beauty and efficiency of a self contained system.In the realm of technology, we can observe the emergence of self contained systems in the form of smart devices. For example, a modern smartphone operates as a self contained system by integrating various functions such as communication, internet access, photography, and entertainment within a single device. Users can perform multiple tasks without the need for additional equipment or services, demonstrating how a self contained system can enhance convenience and efficiency in our daily lives. Moreover, as technology continues to advance, there is a growing trend towards creating more autonomous systems that can operate independently, further exemplifying this concept.Education is another area where the idea of a self contained system can be applied. In recent years, there has been a shift towards project-based learning, where students engage in hands-on projects that require them to utilize their knowledge and skills to solve real-world problems. These projects often function as self contained systems, allowing students to explore concepts thoroughly while developing critical thinking and collaboration skills. By working within a self contained system, students learn how different components interact and contribute to a larger goal, preparing them for future challenges in their academic and professional lives.However, while self contained systems offer many advantages, they are not without their limitations. For instance, a completely isolated ecosystem may struggle to adapt to changes in the environment, leading to potential collapse. Similarly, a technological device may become obsolete if it cannot integrate with new systems or updates. Therefore, it is essential to strike a balance between independence and adaptability when designing self contained systems.In conclusion, the concept of a self contained system plays a crucial role in various domains, providing insights into how systems can function independently and sustainably. By examining natural ecosystems, technological advancements, and educational methodologies, we can appreciate the significance of this concept and its potential to drive innovation and sustainability. As we continue to navigate the complexities of the modern world, embracing the principles of self contained systems may lead us towards more resilient and efficient solutions for the challenges we face.

在当今快速发展的世界中，自给自足系统的概念在技术、生态甚至教育等各个领域引起了广泛关注。自给自足系统指的是一个完整的系统，能够独立运作，而不依赖外部输入。这一理念可以在许多例子中看到，从生态系统到技术设备。理解自给自足系统背后的原则可以导致更可持续的实践和对复杂问题的创新解决方案。最引人注目的自给自足系统例子可以在自然界中找到。生态系统通常作为自给自足系统运作，各种生物与其环境相互作用，以创造一个平衡和可持续的栖息地。例如，森林生态系统包括树木、植物、动物和微生物，这些都在维持环境健康中发挥着重要作用。树木提供氧气，而动物则有助于种子传播和养分循环。这种相互依赖使得生态系统能够在不需要外部资源的情况下繁荣发展，展示了自给自足系统的美丽和高效。在技术领域，我们可以观察到智能设备中出现的自给自足系统的概念。例如，现代智能手机作为自给自足系统运作，通过将通信、互联网接入、摄影和娱乐等各种功能整合在一个设备中。用户可以在不需要额外设备或服务的情况下执行多项任务，展示了自给自足系统如何增强我们日常生活中的便利性和效率。此外，随着技术的不断进步，创建更多能够独立运作的自主系统的趋势也在增长，进一步证明了这一概念。教育是另一个可以应用自给自足系统理念的领域。近年来，项目式学习逐渐成为一种趋势，学生通过参与动手项目来解决现实世界中的问题。这些项目往往作为自给自足系统运作，使学生能够深入探索概念，同时培养批判性思维和协作能力。通过在自给自足系统中工作，学生学习不同组件如何相互作用并为更大的目标作出贡献，为他们未来的学术和职业挑战做好准备。然而，虽然自给自足系统提供了许多优势，但它们也并非没有局限性。例如，一个完全孤立的生态系统可能难以适应环境变化，导致潜在的崩溃。同样，如果技术设备无法与新系统或更新集成，它可能会变得过时。因此，在设计自给自足系统时，必须在独立性和适应性之间找到平衡。总之，自给自足系统的概念在各个领域中发挥着至关重要的作用，为我们提供了关于系统如何独立和可持续运作的见解。通过考察自然生态系统、技术进步和教育方法，我们可以欣赏到这一概念的重要性及其推动创新和可持续发展的潜力。随着我们继续应对现代世界的复杂性，拥抱自给自足系统的原则可能会引导我们朝着更具韧性和高效的解决方案迈进，以应对我们面临的挑战。