line of thrust

简明释义

推力线

英英释义

例句

1.The architect adjusted the design to align with the line of thrust for better load distribution.

建筑师调整了设计，以与推力线对齐，从而更好地分配负载。

2.In structural analysis, understanding the line of thrust helps in predicting failure points.

在结构分析中，理解推力线有助于预测失效点。

3.When designing a bridge, engineers must consider the line of thrust to ensure stability.

在设计桥梁时，工程师必须考虑推力线以确保稳定性。

4.In engineering, the line of thrust refers to the direction in which a force is applied to achieve movement.

在工程学中，推力线指的是施加力量以实现运动的方向。

5.The line of thrust of the rocket engines determines its trajectory during launch.

火箭发动机的推力线决定了其发射过程中的轨迹。

作文

In the field of engineering and physics, the concept of line of thrust is crucial for understanding how forces are applied to objects in motion. The line of thrust refers to the direction in which a force is exerted by an engine or propeller. This concept is particularly important in aerospace engineering, where the performance of aircraft and rockets heavily relies on the accurate application of thrust. For instance, when an airplane takes off, the engines produce thrust that propels the aircraft forward. The line of thrust must be aligned with the center of gravity of the plane to ensure stable flight and efficient maneuverability.Understanding the line of thrust also plays a significant role in the design of various vehicles. Engineers must carefully calculate the optimal line of thrust to ensure that the vehicle can achieve the desired speed and altitude. If the thrust is not properly aligned, it can lead to instability, making it difficult to control the vehicle. This principle applies not only to airplanes but also to rockets and even cars, where the direction of the force impacts acceleration and handling.Moreover, the line of thrust can be influenced by external factors such as wind resistance and gravitational pull. For example, during a rocket launch, engineers must account for the changing line of thrust as the rocket ascends through different layers of the atmosphere. Each layer presents unique challenges, and the thrust must be adjusted accordingly to maintain a stable trajectory. This requires sophisticated calculations and real-time adjustments to ensure that the rocket reaches its intended orbit successfully.In addition to its applications in engineering, the line of thrust can be metaphorically applied to other fields, such as business and personal development. Just as engineers must align the thrust with the center of gravity for optimal performance, individuals and organizations must align their goals and efforts to achieve success. The line of thrust in this context represents the clear direction and focus needed to propel oneself or a company forward.For instance, a business that has a clear mission and vision can harness its resources effectively, creating a strong line of thrust toward achieving its objectives. Conversely, a lack of direction can lead to wasted efforts and missed opportunities. Therefore, understanding the importance of a well-defined line of thrust can significantly impact one’s ability to reach goals, whether in engineering or in life.In conclusion, the concept of line of thrust is not only fundamental in the fields of physics and engineering but also offers valuable insights into goal-setting and achievement in everyday life. By recognizing the significance of aligning our efforts with a clear direction, we can enhance our performance and move closer to our aspirations. Whether we are designing a high-performance aircraft or striving for personal growth, the principles behind the line of thrust remain relevant and essential for success.

在工程和物理领域，line of thrust（推力线）的概念对于理解作用于运动物体的力是至关重要的。line of thrust指的是发动机或螺旋桨施加力的方向。这个概念在航空航天工程中尤为重要，因为飞机和火箭的性能在很大程度上依赖于推力的准确应用。例如，当飞机起飞时，发动机产生的推力推动飞机向前。line of thrust必须与飞机的重心对齐，以确保飞行稳定和高效的机动性。理解line of thrust在各种车辆设计中也扮演着重要角色。工程师必须仔细计算最佳的line of thrust，以确保车辆能够达到所需的速度和高度。如果推力没有正确对齐，可能会导致不稳定，使控制车辆变得困难。这一原理不仅适用于飞机，也适用于火箭甚至汽车，其中力的方向影响加速和操控。此外，line of thrust还可能受到外部因素的影响，例如风阻和重力。例如，在火箭发射过程中，工程师必须考虑随着火箭穿越不同大气层而变化的line of thrust。每一层都带来了独特的挑战，推力必须相应调整，以保持稳定的轨迹。这需要复杂的计算和实时调整，以确保火箭成功达到预定轨道。除了在工程中的应用，line of thrust还可以隐喻性地应用于其他领域，如商业和个人发展。正如工程师必须将推力与重心对齐以获得最佳性能，个人和组织也必须将目标和努力对齐以实现成功。在这个背景下，line of thrust代表了推动自己或公司向前发展的明确方向和焦点。例如，一个拥有清晰使命和愿景的企业可以有效利用其资源，创造出强大的line of thrust，朝着实现其目标迈进。相反，缺乏方向可能导致浪费精力和错失机会。因此，理解良好定义的line of thrust的重要性，可以显著影响一个人达成目标的能力，无论是在工程还是在生活中。总之，line of thrust的概念不仅在物理和工程领域是基础，而且为日常生活中的目标设定和实现提供了宝贵的见解。通过认识到将我们的努力与明确方向对齐的重要性，我们可以提高我们的表现，更接近我们的愿望。无论我们是在设计高性能飞机，还是在追求个人成长，line of thrust背后的原则始终相关且对成功至关重要。