schematic diagram

简明释义

原理图

英英释义

例句

1.For the software project, we created a schematic diagram to map out the user interface flow.

对于软件项目，我们创建了一个示意图来绘制用户界面的流程。

2.The schematic diagram provided a clear overview of the network architecture.

该示意图提供了网络架构的清晰概述。

3.The schematic diagram of the plumbing system helped us identify the leaks easily.

管道系统的示意图帮助我们轻松找到了泄漏点。

4.The engineer presented a schematic diagram to illustrate the electrical circuit design.

工程师展示了一个示意图来说明电路设计。

5.In our biology class, we used a schematic diagram to understand the process of photosynthesis.

在生物课上，我们使用了一个示意图来理解光合作用的过程。

作文

In the world of engineering and technology, clear communication is essential for the successful execution of projects. One of the most effective tools used to convey complex information in a simplified manner is the schematic diagram. A schematic diagram is a representation that uses symbols and lines to illustrate the components of a system and how they interact with each other. This type of diagram is particularly valuable because it allows engineers and technicians to visualize the structure and function of a system without getting bogged down in unnecessary details.For example, in electrical engineering, a schematic diagram can depict the layout of a circuit. It shows the various components such as resistors, capacitors, and transistors, and how they are connected. By using standardized symbols, anyone familiar with electrical engineering can quickly understand the design and functionality of the circuit. This is crucial when troubleshooting or modifying existing circuits, as it provides a clear roadmap to follow.Moreover, schematic diagrams are not limited to electrical engineering; they are widely used in various fields including software engineering, mechanical engineering, and even in biological sciences. For instance, in software development, a schematic diagram may illustrate the flow of data between different modules of a program. This helps developers understand how different parts of the software interact, making it easier to identify potential issues and optimize performance.The creation of a schematic diagram requires a deep understanding of the system being represented. Engineers must carefully consider which elements to include and how to represent them visually. The clarity of a schematic diagram can significantly impact its effectiveness. If the diagram is cluttered or uses non-standard symbols, it can lead to confusion and misinterpretation. Therefore, attention to detail and adherence to established conventions are paramount.Another important aspect of schematic diagrams is their role in education and training. Students and new professionals often use these diagrams to learn about complex systems. By studying schematic diagrams, they can grasp fundamental concepts and principles that govern the operation of various technologies. This educational value extends beyond formal settings, as professionals often refer back to schematic diagrams throughout their careers to refresh their understanding or to communicate ideas to colleagues.In conclusion, the schematic diagram serves as an indispensable tool in the fields of engineering and technology. Its ability to simplify complex information into an easily understandable format makes it invaluable for design, troubleshooting, and education. As technology continues to evolve, the importance of clear communication through tools like schematic diagrams will only increase. Embracing this method of representation will enhance collaboration and innovation across various disciplines, ultimately leading to more efficient and effective solutions to the challenges we face in our increasingly complex world.

在工程和技术的世界中，清晰的沟通对于项目的成功执行至关重要。用于简化复杂信息的一种最有效的工具就是示意图。示意图是一种使用符号和线条来说明系统组件及其相互作用的表示方式。这种类型的图表特别有价值，因为它允许工程师和技术人员在不陷入不必要细节的情况下可视化系统的结构和功能。例如，在电气工程中，示意图可以描绘电路的布局。它显示了各种组件，如电阻器、电容器和晶体管，以及它们是如何连接的。通过使用标准化符号，任何熟悉电气工程的人都可以迅速理解电路的设计和功能。这在故障排除或修改现有电路时至关重要，因为它提供了一个清晰的路线图。此外，示意图并不限于电气工程；它们广泛应用于软件工程、机械工程甚至生物科学等各个领域。例如，在软件开发中，示意图可能会说明程序不同模块之间的数据流。这帮助开发人员理解软件不同部分之间的交互，使识别潜在问题和优化性能变得更容易。创建示意图需要对所表示的系统有深入的理解。工程师必须仔细考虑要包含哪些元素以及如何以视觉方式表示它们。示意图的清晰度可以显著影响其有效性。如果图表杂乱无章或使用非标准符号，可能会导致混淆和误解。因此，注重细节和遵循既定规范至关重要。示意图的另一个重要方面是它们在教育和培训中的作用。学生和新专业人士通常使用这些图表来学习复杂系统。通过研究示意图，他们可以掌握支配各种技术操作的基本概念和原理。这种教育价值超越了正式场合，因为专业人员在整个职业生涯中经常参考示意图来刷新他们的理解或与同事沟通想法。总之，示意图在工程和技术领域中作为一种不可或缺的工具。它将复杂信息简化为易于理解的格式的能力使其在设计、故障排除和教育中变得无价。随着技术的不断发展，通过像示意图这样的工具进行清晰沟通的重要性只会增加。接受这种表示方法将增强各学科之间的合作和创新，最终导致我们在日益复杂的世界中面临的挑战的更高效和有效的解决方案。