air counterbalance

简明释义

气动平衡;

英英释义

例句

1.An improper air counterbalance can lead to difficulties in maneuvering the aircraft.

不当的空气平衡可能会导致飞机操控困难。

2.The use of flaps can significantly enhance the air counterbalance during landing.

使用襟翼可以显著增强着陆时的空气平衡。

3.In designing the aircraft, engineers focused on optimizing the air counterbalance for better stability.

在设计飞机时，工程师们专注于优化空气平衡以提高稳定性。

4.The engineer explained how air counterbalance affects the overall aerodynamics of the plane.

工程师解释了空气平衡如何影响飞机的整体气动特性。

5.The pilot adjusted the controls to ensure the air counterbalance was effective during the flight.

飞行员调整控制以确保在飞行过程中有效的空气平衡。

作文

In the world of aviation and aerodynamics, the concept of air counterbalance plays a crucial role in ensuring stability and control of aircraft. The term air counterbalance refers to the aerodynamic forces that act on an aircraft to maintain its equilibrium during flight. When an aircraft is in motion, various forces such as lift, weight, thrust, and drag come into play. Understanding how these forces interact is essential for pilots and engineers alike, as it directly affects the safety and performance of the aircraft.To elaborate, when an aircraft ascends, the lift generated by its wings must counteract the weight of the aircraft. This is where air counterbalance becomes significant. It involves adjusting the distribution of weight and the design of the wings to ensure that the lift produced is sufficient to support the aircraft’s mass. An effective air counterbalance system allows for smoother climbs and descents, preventing stalling or excessive pitching that could jeopardize flight safety.Moreover, air counterbalance is not only vital during takeoff and landing but also plays a pivotal role during maneuvers. For instance, during a turn, the aircraft experiences a change in airflow and pressure around its wings. Pilots must be aware of how air counterbalance affects the aircraft's response to control inputs. A well-balanced aircraft will respond predictably, whereas an imbalanced one may lead to adverse situations, such as loss of control or increased drag.The design of modern aircraft incorporates advanced technologies to enhance air counterbalance. Engineers utilize computer simulations and wind tunnel testing to analyze airflow patterns and optimize wing shapes. By fine-tuning these elements, they can achieve better stability and efficiency. For example, some aircraft are equipped with flaps and slats that adjust the wing's profile during different phases of flight, contributing to effective air counterbalance.In addition to technical aspects, the concept of air counterbalance can also be metaphorically applied to other fields. In life, we often encounter situations where we must find balance. Just as aircraft rely on aerodynamic principles to maintain stability, individuals must learn to balance various aspects of their lives, such as work and leisure, personal goals and social responsibilities. Achieving this balance can lead to a more fulfilling and productive life.In conclusion, the term air counterbalance encapsulates a fundamental principle in aviation that ensures safe and efficient flight. By understanding and applying the concept of air counterbalance, pilots and engineers can enhance the performance of aircraft, making air travel safer for everyone. Additionally, recognizing the importance of balance in our lives can guide us towards achieving our personal and professional aspirations. The lessons learned from the skies serve as a reminder that balance is essential, whether in aviation or in our daily endeavors.

在航空和空气动力学的世界中，概念空气平衡在确保飞机的稳定性和控制方面发挥着至关重要的作用。术语空气平衡指的是在飞行过程中作用于飞机的空气动力学力，以维持其平衡。当飞机在运动时，各种力，如升力、重量、推力和阻力，都在起作用。理解这些力量如何相互作用对于飞行员和工程师来说至关重要，因为它直接影响到飞机的安全性和性能。进一步说，当飞机上升时，机翼产生的升力必须抵消飞机的重量。这就是空气平衡变得重要的地方。它涉及到调整重量分布和机翼设计，以确保产生的升力足以支撑飞机的质量。有效的空气平衡系统可以实现更平稳的爬升和下降，防止失速或过度俯仰，这可能危及飞行安全。此外，空气平衡不仅在起飞和着陆时至关重要，而且在机动过程中也发挥着关键作用。例如，在转弯时，飞机会经历气流和机翼周围压力的变化。飞行员必须意识到空气平衡如何影响飞机对控制输入的响应。平衡良好的飞机将作出可预测的反应，而失衡的飞机可能导致不利情况，例如失去控制或增加阻力。现代飞机的设计结合了先进的技术，以增强空气平衡。工程师利用计算机模拟和风洞测试来分析气流模式并优化机翼形状。通过微调这些元素，他们可以实现更好的稳定性和效率。例如，一些飞机配备了在不同飞行阶段调整机翼轮廓的襟翼和缝翼，有助于有效的空气平衡。除了技术方面，空气平衡的概念还可以比喻性地应用于其他领域。在生活中，我们经常遇到需要寻找平衡的情况。正如飞机依赖空气动力学原理保持稳定一样，个人也必须学会平衡生活的各个方面，例如工作与休闲、个人目标与社会责任。实现这种平衡可以导致更充实和高效的生活。总之，术语空气平衡概括了航空中的一个基本原则，确保安全和高效的飞行。通过理解和应用空气平衡的概念，飞行员和工程师可以提高飞机的性能，使空中旅行对每个人来说更加安全。此外，认识到生活中平衡的重要性可以指导我们实现个人和职业抱负。从天空中学到的教训提醒我们，无论是在航空还是在日常事务中，平衡都是至关重要的。