jato
简明释义
n. 喷射机起飞助推
复 数 j a t o s
英英释义
A jet-assisted takeoff, commonly referred to as JATO, is a method of using rocket engines to provide additional thrust to an aircraft during takeoff. | 喷气助推起飞,通常称为JATO,是一种在飞机起飞时使用火箭发动机提供额外推力的方法。 |
单词用法
水喷射 | |
墨水喷射 | |
气流喷射 | |
燃料喷射 |
同义词
| 喷气式飞机 | The jet engine provides the necessary thrust for the aircraft to take off. | 喷气发动机提供了飞机起飞所需的推力。 |
反义词
| 静态的 | 在暴风雨中,飞机保持静态。 | ||
| 静止的 | 汽车在红绿灯前静止不动。 |
例句
1.In Europe the VW brand alone outsells all others, with sales in the first six months of the year of 973, 000, ahead of Ford with 793, 000, according to JATO Dynamics, a research firm.
根据调查公司JATO Dynamics的数据,大众汽车今年前六个月在欧洲市场一枝独秀,销量为973000辆,第二名福特为793000辆。
2.In Europe the VW brand alone outsells all others, with sales in the first six months of the year of 973, 000, ahead of Ford with 793, 000, according to JATO Dynamics, a research firm.
根据调查公司JATO Dynamics的数据,大众汽车今年前六个月在欧洲市场一枝独秀,销量为973000辆,第二名福特为793000辆。
3.He explained how the jato works in simple terms.
他用简单的术语解释了喷气推进器的工作原理。
4.During the test flight, the jato was activated to simulate emergency conditions.
在测试飞行中,喷气推进器被激活以模拟紧急情况。
5.The airplane uses a powerful jato system to enhance its speed.
这架飞机使用强大的喷气推进器系统来提高速度。
6.The engineers are designing a new jato that is more fuel-efficient.
工程师们正在设计一种更节能的新喷气推进器。
7.The military aircraft relies heavily on its jato for quick takeoffs.
这架军用飞机非常依赖其喷气推进器进行快速起飞。
作文
In the world of aviation, technology continues to evolve at a rapid pace, and one of the fascinating advancements is the concept of a jato. A jato (即“助推器”) is a type of rocket engine that is used to provide additional thrust to an aircraft during takeoff or other critical phases of flight. The term itself is derived from the words 'jet-assisted takeoff', which perfectly encapsulates its purpose. The use of jato systems has been particularly beneficial for military aircraft and heavy cargo planes that require an extra boost to lift off from shorter runways or to carry heavier loads.The principle behind a jato system is relatively straightforward. When activated, the jato provides a significant amount of thrust that supplements the existing engines of the aircraft. This is especially useful in situations where the aircraft's weight exceeds the normal limits for takeoff. For instance, during military operations, where aircraft may need to transport equipment or personnel quickly, a jato can make all the difference. It allows planes to take off from less than ideal conditions, ensuring that missions can be executed efficiently.Historically, the development of jato technology dates back to World War II when engineers sought ways to enhance the performance of fighter jets. The initial designs were rudimentary, but they laid the groundwork for more sophisticated systems that we see today. Over the years, various iterations of jato systems have been developed, each improving on the last in terms of efficiency and reliability. Modern jato units are designed to be lightweight and compact, making them easier to integrate into different aircraft models without significantly altering their design.One of the most notable examples of jato use is the C-130 Hercules, a military transport aircraft. The C-130 can be equipped with jato units to assist in takeoffs from short runways, which is often necessary in combat zones or disaster relief efforts. By utilizing a jato, the C-130 can achieve the necessary speed and altitude more quickly, allowing it to deliver supplies and personnel in a timely manner.However, the use of jato systems is not without challenges. Pilots must be trained to handle the additional thrust and the unique flight characteristics that come with it. Furthermore, the activation of a jato requires careful planning and coordination, as the sudden increase in speed can affect the aircraft's stability. Safety protocols must be in place to ensure that the jato is used effectively and does not pose a risk to the crew or the aircraft itself.In conclusion, the jato represents a remarkable achievement in aerospace engineering, providing a vital tool for enhancing aircraft performance. Its ability to facilitate takeoffs in challenging conditions has made it an invaluable asset in both military and civilian aviation. As technology continues to advance, it will be interesting to see how jato systems evolve and what new innovations will emerge in the field of aviation. Understanding the role of jato not only deepens our appreciation for flight but also highlights the ingenuity of human innovation in overcoming obstacles in transportation.
在航空世界中,技术以快速的速度不断发展,其中一个迷人的进步是“jato”的概念。jato(即“助推器”)是一种火箭发动机,用于在起飞或其他关键飞行阶段为飞机提供额外的推力。这个术语本身源于“喷气助推起飞”这几个词,完美地概括了它的目的。jato系统的使用对军用飞机和重型货运飞机尤其有利,这些飞机在短跑道上起飞或承载更重的负载时需要额外的推动力。jato系统背后的原理相对简单。当激活时,jato提供大量推力,以补充飞机现有的发动机。这在飞机重量超过正常起飞限制的情况下尤其有用。例如,在军事行动中,飞机可能需要快速运输设备或人员,jato可以带来巨大的不同。它允许飞机在不理想的条件下起飞,确保任务能够高效执行。历史上,jato技术的发展可以追溯到第二次世界大战,当时工程师们寻求增强战斗机性能的方法。最初的设计相对简单,但为我们今天看到的更复杂的系统奠定了基础。多年来,各种版本的jato系统不断开发,每一代在效率和可靠性方面都有所提高。现代jato单元被设计得轻巧且紧凑,使其更容易集成到不同的飞机型号中,而不会显著改变其设计。jato使用的一个显著例子是C-130大力士,这是一种军用运输飞机。C-130可以装备jato单元,以帮助其从短跑道起飞,这在战斗区或救灾工作中通常是必要的。通过利用jato,C-130可以更快地达到必要的速度和高度,使其能够及时运送物资和人员。然而,使用jato系统并非没有挑战。飞行员必须接受培训,以处理额外的推力和随之而来的独特飞行特性。此外,激活jato需要仔细的规划和协调,因为速度的突然增加可能会影响飞机的稳定性。必须制定安全协议,以确保有效使用jato,并且不会对机组人员或飞机本身构成风险。总之,jato代表了航空工程中的一项显著成就,为增强飞机性能提供了重要工具。它在困难条件下促进起飞的能力使其成为军用和民用航空中不可或缺的资产。随着技术的不断进步,观察jato系统如何演变以及航空领域将出现哪些新创新,将是非常有趣的。理解jato的作用不仅加深了我们对飞行的欣赏,也突显了人类在克服交通障碍方面的创新智慧。
