angle of climb

简明释义

爬升角

英英释义

例句

1.During takeoff, the angle of climb 爬升角 is crucial for avoiding obstacles.

在起飞过程中，<顺>爬升角<顺>对于避免障碍物至关重要。

2.The pilot adjusted the aircraft's pitch to optimize the angle of climb 爬升角 for better fuel efficiency.

飞行员调整了飞机的俯仰角，以优化<顺>爬升角<顺>以提高燃油效率。

3.The instructor emphasized the importance of maintaining the correct angle of climb 爬升角 during training flights.

教练强调在训练飞行中保持正确的<顺>爬升角<顺>的重要性。

4.The flight manual specifies the optimal angle of climb 爬升角 for different weights of the aircraft.

飞行手册为不同重量的飞机指定了最佳<顺>爬升角<顺>。

5.A steeper angle of climb 爬升角 can lead to increased drag and reduced performance.

更陡的<顺>爬升角<顺>可能导致阻力增加和性能下降。

作文

The term angle of climb refers to the angle between the horizontal plane and the flight path of an aircraft during its ascent. This angle is crucial for pilots as it directly affects the aircraft's performance and safety. When an aircraft takes off, achieving a proper angle of climb is essential to ensure that it gains altitude efficiently while maintaining control. A steep angle of climb might seem advantageous at first glance, as it allows the aircraft to ascend quickly; however, it can lead to a stall if the angle exceeds the aircraft's design limits. Therefore, pilots must understand the optimal angle of climb for their specific aircraft type to balance speed, altitude gain, and safety.During training, pilots learn to calculate the appropriate angle of climb based on various factors such as weight, weather conditions, and aircraft configuration. For instance, a heavily loaded aircraft may require a shallower angle of climb to maintain sufficient lift, while a lighter aircraft can achieve a steeper ascent. Additionally, environmental conditions like wind direction and speed can significantly influence the effective angle of climb. Pilots must be adept at adjusting their flight paths in response to these variables, ensuring a safe and efficient climb.Furthermore, the angle of climb is not only important during takeoff but also during emergency situations. In the event of an engine failure shortly after takeoff, pilots must quickly assess the situation and determine the best angle of climb to maintain control of the aircraft and safely return to the airport. This requires a deep understanding of the aircraft's performance capabilities and limitations.In commercial aviation, the angle of climb is meticulously calculated and monitored. Airlines invest significant resources in pilot training and flight simulation to ensure that their crews are proficient in managing the angle of climb under various scenarios. This training helps prevent accidents and enhances overall flight safety, as pilots become more familiar with the nuances of their aircraft’s behavior during ascent.In conclusion, the angle of climb is a fundamental concept in aviation that encompasses the relationship between an aircraft's ascent and its performance. Understanding this angle is vital for pilots to ensure safe and efficient flights. By mastering the angle of climb, pilots can navigate the complexities of flight dynamics, making informed decisions that contribute to the safety and success of their missions. As technology advances and aircraft designs evolve, the importance of the angle of climb will remain a critical area of focus for aviation professionals around the world.

“爬升角”是指飞机在上升过程中，飞行路径与水平面的夹角。这个角度对飞行员至关重要，因为它直接影响飞机的性能和安全。当飞机起飞时，达到适当的“爬升角”对于确保其有效地获得高度并保持控制至关重要。陡峭的“爬升角”乍一看似乎有利，因为它允许飞机快速上升；然而，如果角度超过飞机的设计极限，就可能导致失速。因此，飞行员必须了解其特定飞机类型的最佳“爬升角”，以平衡速度、高度增益和安全性。在培训过程中，飞行员学习根据各种因素（如重量、天气条件和飞机配置）计算适当的“爬升角”。例如，负载较重的飞机可能需要较浅的“爬升角”才能保持足够的升力，而较轻的飞机则可以实现更陡的上升。此外，环境条件如风向和风速会显著影响有效的“爬升角”。飞行员必须熟练调整航线以应对这些变量，确保安全高效的爬升。此外，“爬升角”不仅在起飞时重要，在紧急情况下也同样关键。在起飞后不久发生引擎故障时，飞行员必须迅速评估情况，并确定最佳的“爬升角”以保持飞机控制并安全返回机场。这需要对飞机的性能能力和限制有深刻理解。在商业航空中，“爬升角”被精确计算和监控。航空公司在飞行员培训和飞行模拟器方面投入了大量资源，以确保其机组人员能够熟练管理各种情况下的“爬升角”。这种培训有助于防止事故，提高整体飞行安全，因为飞行员对飞机在上升过程中的行为更加熟悉。总之，“爬升角”是航空领域的一个基本概念，涵盖了飞机上升与其性能之间的关系。理解这个角度对于飞行员确保安全高效的飞行至关重要。通过掌握“爬升角”，飞行员可以驾驭飞行动态的复杂性，做出明智的决策，为他们的任务的安全和成功做出贡献。随着技术的进步和飞机设计的发展，“爬升角”将继续成为全球航空专业人士关注的关键领域。