aeronautical

简明释义

英[ˌeərəˈnɔːtɪkl]美[ˌerəˈnɔːtɪkl]

adj. 航空的；航空学的；飞机驾驶员的（等于 aeronautic）

英英释义

单词用法

同义词

反义词

例句

1.Many of the pilots were to achieve eminence in the aeronautical world.

其中的很多飞行员后来在航空界都取得了显赫的声名。

2.Meet the ‘Transition,’ a new light sport aircraft developed by MIT aeronautical engineers at US based Terrafugia.

现在看看“过渡者”号——一个由MIT航空工程师在Terrafugia的基础上开发的新轻型飞机。

3.The factory belongs to China Aeronautical Project and Design Institute.

直属于中国航空工业规划设计研究院。

4.Relevant design data of the civil aeronautical products or articles regarding the above two.

上述两项相应的民用航空产品或零部件的设计数据。

5.Arrange for the provision of the meteorological documents and aeronautical information.

安排提供气象文件和航空资料。

6.The system will support AIXM 5, the new global aeronautical data interchange standard.

该系统将支持最新的全球航空数据交换标准——AIXM5。

7.French studio LCR Architectes have recently completed the design of a complex for the aeronautical industry group Thales, in the south of France.

在法国的南部，法国工作室LCR最近完成了一座航空工业集团泰利斯的综合大楼设计。

8.Since 1935, gliders have gained in reputation as tools for aeronautical and meteorological research.

1935年以来，滑翔机作为航空和气象研究的工具获得好评。

9.The aeronautical 航空的 industry is constantly evolving with new technologies.

随着新技术的出现，航空行业在不断发展。

10.He is working on an aeronautical 航空的 project that involves drone technology.

他正在进行一个涉及无人机技术的航空项目。

11.Many aeronautical 航空的 engineers work for government agencies.

许多航空工程师为政府机构工作。

12.Her research focuses on aeronautical 航空的 safety and regulations.

她的研究集中在航空安全和法规上。

13.The university offers a degree in aeronautical 航空的 engineering.

这所大学提供航空工程学位。

作文

The field of aeronautical engineering is one of the most fascinating and challenging disciplines in the realm of engineering. It encompasses the design, development, testing, and production of aircraft and spacecraft. The importance of aeronautical engineering cannot be overstated, as it plays a crucial role in modern transportation, defense, and exploration. As we delve deeper into this subject, we will explore the various aspects that make aeronautical engineering a vital part of our technological landscape.Firstly, aeronautical engineering has a rich history that dates back to the early 20th century. The Wright brothers’ first powered flight in 1903 marked the beginning of human flight, and since then, the industry has evolved dramatically. From the development of commercial airliners that connect people across the globe to military aircraft designed for defense, aeronautical engineers have continually pushed the boundaries of what is possible.One of the primary responsibilities of aeronautical engineers is to ensure the safety and efficiency of aircraft. This involves extensive research and testing to understand aerodynamics, materials science, and propulsion systems. Engineers must consider factors such as weight, speed, and fuel efficiency when designing an aircraft. Innovations in technology, such as computer-aided design (CAD) software and simulation tools, have revolutionized the way aeronautical engineers approach their work, allowing for more precise and efficient designs.Moreover, sustainability is becoming an increasingly important aspect of aeronautical engineering. With growing concerns about climate change and environmental impact, engineers are tasked with finding ways to reduce emissions and improve fuel efficiency. This includes the development of alternative fuels, electric aircraft, and more efficient engine designs. The challenge lies in balancing performance with environmental responsibility, a task that requires creativity and forward-thinking from aeronautical engineers.In addition to technical skills, aeronautical engineers must possess strong problem-solving abilities and teamwork skills. Projects often involve collaboration with professionals from various fields, including mechanical, electrical, and software engineering. Effective communication is essential to ensure that all team members are aligned and working towards a common goal. This collaborative environment fosters innovation and allows for the exchange of ideas, which can lead to groundbreaking advancements in aeronautical technology.Furthermore, the future of aeronautical engineering looks promising, with advancements in artificial intelligence (AI) and automation. These technologies have the potential to enhance the design process, improve safety protocols, and even automate certain aspects of flying. As we move towards a more automated future, aeronautical engineers will need to adapt and embrace these changes to stay at the forefront of the industry.In conclusion, aeronautical engineering is a dynamic and essential field that contributes significantly to our society. Its impact on transportation, defense, and environmental sustainability makes it a vital area of study and practice. As technology continues to evolve, the role of aeronautical engineers will only become more critical. By fostering innovation and addressing the challenges of the future, aeronautical engineers will help shape the way we travel and explore the skies for generations to come.

航空工程领域是工程学中最迷人和最具挑战性的学科之一。它包括飞机和航天器的设计、开发、测试和生产。航空工程的重要性无法夸大，因为它在现代交通、国防和探索中发挥着关键作用。当我们深入探讨这一主题时，我们将探索使航空工程成为我们技术景观重要组成部分的各个方面。首先，航空工程有着悠久的历史，可以追溯到20世纪初。莱特兄弟于1903年进行的第一次动力飞行标志着人类飞行的开始，自那时起，行业发生了剧烈变化。从开发连接全球的人们的商业客机到为国防而设计的军用飞机，航空工程师不断推动可能性的界限。航空工程师的主要职责之一是确保飞机的安全和效率。这涉及广泛的研究和测试，以了解空气动力学、材料科学和推进系统。工程师在设计飞机时必须考虑诸如重量、速度和燃油效率等因素。计算机辅助设计（CAD）软件和仿真工具等技术创新彻底改变了航空工程师处理工作的方式，使得设计更加精确和高效。此外，可持续性正成为航空工程日益重要的一个方面。随着对气候变化和环境影响的关注日益增加，工程师被要求寻找减少排放和提高燃油效率的方法。这包括开发替代燃料、电动飞机和更高效的发动机设计。挑战在于平衡性能与环境责任，这项任务需要航空工程师的创造力和前瞻性思维。除了技术技能外，航空工程师还必须具备强大的问题解决能力和团队合作能力。项目通常涉及与来自各个领域的专业人员的合作，包括机械、电气和软件工程。有效的沟通对于确保所有团队成员保持一致并朝着共同目标努力至关重要。这种协作环境促进了创新，并允许思想的交流，这可以导致航空技术的突破性进展。此外，航空工程的未来看起来充满希望，人工智能（AI）和自动化的进步。这些技术有潜力增强设计过程、改善安全协议，甚至自动化飞行的某些方面。随着我们迈向更加自动化的未来，航空工程师需要适应并接受这些变化，以保持行业的前沿。总之，航空工程是一个动态且必不可少的领域，对我们的社会贡献重大。它对交通、国防和环境可持续性的影响使其成为一个重要的学习和实践领域。随着技术的不断发展，航空工程师的角色只会变得更加关键。通过促进创新并应对未来的挑战，航空工程师将帮助塑造我们未来几代人的旅行和探索天空的方式。