plane shock

简明释义

正激波

英英释义

例句

1.To minimize plane shock, manufacturers use advanced materials in the aircraft's construction.

为了减少飞机震动，制造商在飞机的构造中使用先进材料。

2.During the test flight, the crew reported significant plane shock when crossing the sound barrier.

在测试飞行中，机组人员报告在突破音障时出现显著的飞机震动。

3.Pilots are trained to handle plane shock to ensure passenger safety.

飞行员接受训练以应对飞机震动，确保乘客安全。

4.The engineers analyzed the data to understand the causes of plane shock in the new aircraft design.

工程师分析数据以了解新飞机设计中飞机震动的原因。

5.The fighter jet experienced a sudden plane shock during its high-speed maneuver.

战斗机在高速机动中经历了突然的飞机震动。

作文

In the world of aviation, one term that frequently arises is plane shock, which refers to the sudden and intense change in pressure experienced by an aircraft as it breaks through the sound barrier. This phenomenon is not only fascinating from a scientific perspective but also crucial for pilots and engineers to understand. When an aircraft approaches the speed of sound, it generates shock waves that can have significant effects on its structure and performance. The plane shock that occurs at this critical juncture can lead to various challenges, including turbulence and control issues, making it imperative for pilots to be well-trained in handling such situations.One of the key aspects of plane shock is the impact it has on the aircraft's aerodynamics. As the aircraft accelerates towards supersonic speeds, the air pressure around it increases dramatically. This increase in pressure creates a shock wave that travels outward from the aircraft, resulting in a loud noise known as a sonic boom. The sonic boom is a direct consequence of plane shock and is often mistaken for an explosion by those on the ground. Understanding this phenomenon helps in mitigating its effects, particularly in terms of noise pollution in populated areas.Moreover, plane shock poses significant engineering challenges. Aircraft must be designed to withstand the stresses associated with breaking the sound barrier. Engineers utilize advanced materials and aerodynamic designs to ensure that planes can endure the forces generated during plane shock. This involves extensive testing and simulations to predict how different aircraft will respond when they encounter these high-pressure conditions.In addition to the technical aspects, plane shock also has implications for flight safety. Pilots need to be aware of the signs that indicate they are approaching the speed of sound. Training programs emphasize the importance of understanding plane shock and its effects on aircraft stability. By recognizing the onset of plane shock, pilots can take proactive measures to maintain control and ensure a safe flight.Furthermore, research into plane shock continues to evolve. Scientists and engineers are exploring ways to reduce the intensity of shock waves produced by supersonic aircraft. This research aims to create quieter, more efficient planes that can operate at high speeds without causing disturbances on the ground. Innovations in technology may lead to breakthroughs that minimize the impact of plane shock, paving the way for a new era of aviation.In conclusion, plane shock is a critical concept in aviation that encompasses various scientific, engineering, and safety considerations. Understanding plane shock is essential for pilots, engineers, and researchers alike. As the aviation industry continues to advance, addressing the challenges posed by plane shock will be vital for the future of flight. By enhancing our understanding of this phenomenon, we can improve aircraft design, enhance pilot training, and ultimately make flying safer and more efficient for everyone.

在航空领域，一个经常出现的术语是飞机震荡，它指的是飞机突破音障时所经历的突然和强烈的压力变化。这一现象不仅从科学的角度来看令人着迷，而且对飞行员和工程师的理解至关重要。当飞机接近音速时，它会产生冲击波，这对其结构和性能有显著影响。发生在这一关键时刻的飞机震荡可能导致各种挑战，包括湍流和控制问题，因此飞行员必须经过良好的训练以应对这种情况。飞机震荡的一个关键方面是它对飞机气动性能的影响。当飞机加速到超音速速度时，周围的空气压力急剧增加。这种压力的增加产生了向外传播的冲击波，导致一种被称为音爆的巨大噪音。音爆是飞机震荡的直接结果，常常被地面上的人误认为是爆炸。了解这一现象有助于减轻其影响，特别是在拥挤区域的噪音污染方面。此外，飞机震荡还带来了重大的工程挑战。飞机必须设计得能够承受突破音障时所产生的压力。工程师利用先进的材料和气动设计来确保飞机能够承受在飞机震荡过程中产生的力量。这涉及到广泛的测试和模拟，以预测不同飞机在遇到这些高压条件时的反应。除了技术方面，飞机震荡对飞行安全也有影响。飞行员需要意识到他们接近音速的迹象。培训项目强调理解飞机震荡及其对飞机稳定性的影响的重要性。通过识别飞机震荡的开始，飞行员可以采取主动措施保持控制，确保安全飞行。此外，关于飞机震荡的研究仍在不断发展。科学家和工程师正在探索减少超音速飞机产生的冲击波强度的方法。这项研究旨在创造更安静、更高效的飞机，使其能够在高速下运行而不会对地面造成干扰。技术创新可能导致减少飞机震荡影响的突破，为航空业的新纪元铺平道路。总之，飞机震荡是航空中一个关键概念，涉及多种科学、工程和安全考虑。理解飞机震荡对飞行员、工程师和研究人员来说都至关重要。随着航空业的不断进步，解决飞机震荡带来的挑战将对未来的飞行至关重要。通过增强我们对这一现象的理解，我们可以改善飞机设计，增强飞行员培训，最终使飞行更加安全和高效。