end thrust
简明释义
轴向推力
英英释义
例句
1.The calculations showed that increasing the end thrust 末端推力 would reduce the travel time to Mars.
计算表明,增加end thrust 末端推力将减少前往火星的旅行时间。
2.The design of the new engine focuses on maximizing end thrust 末端推力 for better fuel efficiency.
新发动机的设计重点是最大化end thrust 末端推力以提高燃油效率。
3.The rocket's engine produced a powerful end thrust 末端推力 that propelled it into orbit.
火箭的发动机产生了强大的end thrust 末端推力,将其送入轨道。
4.To achieve the desired altitude, the pilot adjusted the end thrust 末端推力 settings during ascent.
为了达到期望的高度,飞行员在上升过程中调整了end thrust 末端推力设置。
5.During the test flight, engineers measured the end thrust 末端推力 to ensure the spacecraft's performance.
在测试飞行中,工程师测量了end thrust 末端推力以确保航天器的性能。
作文
In the realm of engineering and physics, the term end thrust refers to the force exerted at the end of a structure or component, typically in the direction of its length. This concept is particularly significant in various applications, such as in the design of bridges, buildings, and aerospace structures. Understanding end thrust is crucial for ensuring that these structures can withstand the forces acting upon them without failing. For instance, when designing a bridge, engineers must calculate the end thrust generated by vehicles crossing it to ensure that the bridge can support the weight and dynamic forces involved. The importance of end thrust extends beyond civil engineering; it is also relevant in mechanical systems. In engines, for example, the end thrust plays a vital role in determining how well an engine can perform under various conditions. If the end thrust is not adequately managed, it can lead to mechanical failures or inefficiencies, which can have severe consequences in high-stakes environments like aviation or automotive industries.Moreover, in the context of space exploration, the concept of end thrust takes on a whole new dimension. Rockets rely heavily on thrust to propel themselves into space, and understanding how to optimize end thrust is essential for successful missions. Engineers must carefully calculate the thrust produced by rocket engines and how it interacts with the mass of the rocket, as well as external factors such as gravity and atmospheric pressure. A failure to accurately assess end thrust could result in mission failure or loss of the spacecraft.Furthermore, the implications of end thrust can be seen in everyday applications as well. For example, in the construction of tall buildings, the end thrust from wind pressure must be considered to ensure structural integrity. Architects and engineers utilize advanced modeling techniques to predict how end thrust will affect their designs, allowing them to create safer and more efficient buildings.In conclusion, the concept of end thrust is a fundamental aspect of engineering and physics that impacts a wide range of fields. Whether in civil engineering, mechanical systems, or aerospace applications, understanding and managing end thrust is essential for the safety and functionality of structures and devices. As technology continues to advance, the methods for calculating and optimizing end thrust will only become more sophisticated, leading to even greater innovations in engineering and design. Therefore, a thorough grasp of this concept is not only beneficial but necessary for anyone involved in technical fields.
在工程和物理学领域,短语end thrust指的是在结构或组件末端施加的力,通常沿着其长度方向。这一概念在许多应用中尤为重要,例如在桥梁、建筑物和航空航天结构的设计中。理解end thrust对于确保这些结构能够承受施加于它们的力而不发生故障至关重要。例如,在设计桥梁时,工程师必须计算过往车辆产生的end thrust,以确保桥梁可以支撑相关的重量和动态力。end thrust的重要性不仅限于土木工程,它在机械系统中同样相关。例如,在发动机中,end thrust在决定发动机在各种条件下的性能方面发挥着关键作用。如果end thrust没有得到适当管理,就可能导致机械故障或效率低下,这在航空或汽车工业等高风险环境中可能会产生严重后果。此外,在太空探索的背景下,end thrust的概念又具有了全新的维度。火箭在进入太空时严重依赖推力,理解如何优化end thrust对于成功的任务至关重要。工程师必须仔细计算火箭发动机产生的推力及其与火箭质量以及重力和大气压力等外部因素的相互作用。如果未能准确评估end thrust,可能会导致任务失败或航天器损失。此外,end thrust的影响也可以在日常应用中看到。例如,在高楼建筑的施工中,必须考虑风压带来的end thrust以确保结构的完整性。建筑师和工程师利用先进的建模技术来预测end thrust将如何影响他们的设计,从而使他们能够创造出更安全、更高效的建筑。总之,end thrust的概念是工程和物理学的一个基本方面,影响着广泛的领域。无论是在土木工程、机械系统还是航空航天应用中,理解和管理end thrust对于结构和设备的安全性和功能性至关重要。随着技术的不断进步,计算和优化end thrust的方法将变得更加复杂,从而推动工程和设计的更大创新。因此,对于任何涉及技术领域的人来说,深入掌握这一概念不仅是有益的,而且是必要的。
