angle of attack detector

简明释义

迎角传感器(舵

英英释义

例句

1.The pilot relied on the angle of attack detector 攻角探测器 to prevent stalling during the flight.

飞行员依靠攻角探测器来防止在飞行中失速。

2.The angle of attack detector 攻角探测器 provides real-time data to the flight control system.

该攻角探测器向飞行控制系统提供实时数据。

3.During the training session, we learned how to interpret the readings from the angle of attack detector 攻角探测器.

在培训课程中，我们学习了如何解读攻角探测器的读数。

4.The new model features an advanced angle of attack detector 攻角探测器 that enhances performance.

新型号配备了先进的攻角探测器，提升了性能。

5.An angle of attack detector 攻角探测器 is essential for modern aircraft to ensure safety.

现代飞机必备攻角探测器以确保安全。

作文

In the field of aerodynamics and aviation, understanding the dynamics of flight is crucial for ensuring safety and efficiency. One of the key components in this domain is the angle of attack detector, which plays a significant role in determining the aerodynamic performance of an aircraft. The angle of attack (AoA) refers to the angle between the wing's chord line and the oncoming airflow. This measurement is vital because it influences lift, drag, and overall stability during flight.An angle of attack detector is a device used to measure this angle in real-time. It provides pilots with critical information that helps them make informed decisions while flying. When an aircraft is climbing, descending, or maneuvering, the AoA can change dramatically. If the angle becomes too high, it can lead to a stall, a dangerous condition where the wings lose lift. Therefore, having an accurate angle of attack detector is essential for maintaining safe flight operations.The technology behind angle of attack detectors has evolved significantly over the years. Early models were mechanical, relying on simple instruments to gauge the angle based on physical movement. However, modern detectors often use electronic sensors and sophisticated algorithms to provide more precise readings. These advancements allow for quicker response times and improved accuracy, which are critical during complex flight maneuvers.Pilots are trained to interpret the data provided by the angle of attack detector. They learn to recognize the optimal angles for different phases of flight, such as takeoff, cruising, and landing. By monitoring the AoA, pilots can adjust their control inputs to maintain the desired performance levels. For instance, if the AoA approaches the critical limit, pilots may need to reduce the aircraft's pitch or increase speed to avoid a stall.Moreover, the angle of attack detector is not only beneficial for pilots but also for aircraft designers and engineers. Understanding how different aircraft configurations affect the AoA can lead to better designs that enhance performance and safety. Engineers can use data from these detectors during testing phases to refine aircraft shapes and improve overall aerodynamics.In conclusion, the angle of attack detector is a vital instrument in aviation that contributes to the safety and efficiency of flight operations. Its ability to provide real-time measurements of the angle of attack helps pilots make informed decisions, thereby preventing dangerous situations like stalls. As technology continues to advance, the accuracy and reliability of these detectors will only improve, further enhancing the safety of air travel. Understanding the function and importance of the angle of attack detector is essential for anyone involved in aviation, from pilots to engineers. By prioritizing the use of this technology, the aviation industry can continue to evolve and ensure safer skies for all.

在空气动力学和航空领域，理解飞行的动态对于确保安全和效率至关重要。这个领域的一个关键组成部分是攻角探测器，它在确定飞机的空气动力性能方面发挥着重要作用。攻角（AoA）指的是机翼弦线与来流之间的角度。这个测量值至关重要，因为它影响升力、阻力和飞行过程中的整体稳定性。攻角探测器是一种用于实时测量这一角度的设备。它为飞行员提供了关键信息，帮助他们在飞行中做出明智的决策。当飞机爬升、下降或机动时，攻角可能会发生剧烈变化。如果攻角过高，可能导致失速，这是一种危险的状态，机翼失去升力。因此，拥有一个准确的攻角探测器对于保持安全的飞行操作至关重要。攻角探测器背后的技术多年来经历了显著的演变。早期的模型是机械式的，依赖于简单的仪器通过物理运动来测量角度。然而，现代探测器通常使用电子传感器和复杂的算法来提供更精确的读数。这些进步允许更快的响应时间和更高的准确性，这在复杂的飞行机动中至关重要。飞行员经过培训以解读攻角探测器提供的数据。他们学习在不同的飞行阶段（如起飞、巡航和着陆）识别最佳角度。通过监测攻角，飞行员可以调整控制输入，以维持所需的性能水平。例如，如果攻角接近临界限，飞行员可能需要降低飞机的俯仰角或提高速度，以避免失速。此外，攻角探测器不仅对飞行员有益，对飞机设计师和工程师也同样重要。了解不同飞机配置如何影响攻角可以导致更好的设计，从而增强性能和安全性。工程师可以在测试阶段利用这些探测器的数据来优化飞机形状，提高整体空气动力学性能。总之，攻角探测器是航空中一个至关重要的仪器，有助于飞行操作的安全性和效率。它能够实时测量攻角，帮助飞行员做出明智的决策，从而防止像失速这样的危险情况。随着技术的不断进步，这些探测器的准确性和可靠性将进一步提高，进一步增强航空旅行的安全性。理解攻角探测器的功能和重要性对于任何参与航空的人来说都是必不可少的，从飞行员到工程师。通过优先使用这一技术，航空业可以继续发展，确保所有人的天空更加安全。