rate of approach
简明释义
接近速度两船或两物的)逼近速度
英英释义
The speed at which one object moves towards another object or a point in space. | 一个物体朝向另一个物体或空间中的某一点移动的速度。 |
例句
1.The meteorologist explained how the rate of approach 接近速度 of the storm could affect local weather conditions.
气象学家解释了暴风雨的接近速度如何影响当地天气条件。
2.In the game, the rate of approach 接近速度 of the enemy forces determines how quickly they can invade your territory.
在游戏中,敌军的接近速度决定了他们入侵你领土的速度。
3.As the car approached the intersection, the driver needed to monitor the rate of approach 接近速度 to ensure safety.
当汽车接近交叉口时,司机需要监控接近速度以确保安全。
4.The coach emphasized the importance of maintaining a consistent rate of approach 接近速度 when practicing free throws.
教练强调在练习罚球时保持一致的接近速度的重要性。
5.The pilot adjusted the aircraft's speed to control the rate of approach 接近速度 for a smoother landing.
飞行员调整了飞机的速度,以控制
作文
In the field of physics, particularly in mechanics, one of the critical concepts that often arises is the rate of approach. This term refers to the speed at which two objects move closer to each other. Understanding the rate of approach is essential not only in theoretical studies but also in practical applications such as aviation, space exploration, and even in everyday life scenarios like driving a car. For instance, when an airplane is landing, the pilots must carefully monitor the rate of approach to ensure a safe touchdown. If the rate of approach is too steep, it could lead to a hard landing, potentially damaging the aircraft or injuring passengers. Conversely, if the approach is too gradual, the plane may run out of runway before it can come to a complete stop. Thus, finding the optimal rate of approach is crucial for the safety and efficiency of the landing process.Moreover, the concept of rate of approach can be applied in various other fields. For example, in sports, athletes often need to calculate their rate of approach when executing jumps or throws. A high jumper must gauge how quickly they are approaching the bar to maximize their chances of clearing it. Similarly, a basketball player needs to consider their rate of approach when driving towards the basket to make a successful layup. In addition to physical applications, the rate of approach can also be metaphorically applied to personal growth and relationships. For instance, when building a relationship, the rate of approach between two individuals can significantly affect the bond they share. A slow and steady rate of approach might allow for deeper understanding and connection, while a rapid progression could lead to misunderstandings or superficial interactions. Furthermore, in the context of technology, especially in the realm of robotics and automation, understanding the rate of approach is vital for ensuring that machines interact safely and effectively with humans. For example, a robotic arm in a manufacturing plant must be programmed to maintain a specific rate of approach when picking up items to avoid accidents or damage to goods. In conclusion, the rate of approach is a multifaceted concept that extends beyond the confines of physics into various aspects of life. Whether in aviation, sports, personal relationships, or technology, understanding and mastering the rate of approach can lead to better outcomes and enhanced safety. As we continue to explore and apply this concept in different domains, it becomes clear that the rate of approach is not just a technical term, but a fundamental principle that governs many interactions in our world. Ultimately, grasping the significance of the rate of approach can empower individuals to make informed decisions, whether they are piloting an aircraft, engaging in sports, or navigating the complexities of human relationships. Therefore, it is essential to appreciate the nuances of this term and its implications in our daily lives.
在物理学的领域,尤其是力学中,一个经常出现的重要概念是接近速度。这个术语指的是两个物体彼此靠近的速度。理解接近速度不仅在理论研究中至关重要,在实际应用中,如航空、太空探索,甚至日常生活场景如开车时也同样重要。例如,当飞机着陆时,飞行员必须仔细监控接近速度以确保安全降落。如果接近速度过陡,可能会导致硬着陆,从而可能损坏飞机或伤害乘客。相反,如果接近速度过缓,飞机在完全停下之前可能会耗尽跑道。因此,找到最佳的接近速度对着陆过程的安全性和效率至关重要。此外,接近速度的概念还可以应用于其他多个领域。例如,在体育运动中,运动员在进行跳跃或投掷时通常需要计算他们的接近速度。跳高运动员必须评估他们接近横杆的速度,以最大化清越的机会。同样,篮球运动员在冲向篮筐进行上篮时,也需要考虑他们的接近速度。除了物理应用,接近速度的概念还可以隐喻地应用于个人成长和人际关系中。例如,在建立一段关系时,两个人之间的接近速度会显著影响他们的联系。缓慢而稳定的接近速度可能有助于更深刻的理解和连接,而快速的发展可能导致误解或表面的互动。此外,在技术领域,特别是在机器人和自动化领域,理解接近速度对于确保机器与人类的安全有效互动至关重要。例如,制造工厂中的机器人臂在拾取物品时必须被编程为保持特定的接近速度,以避免事故或货物损坏。总之,接近速度是一个多方面的概念,它超越了物理学的界限,延伸到生活的各个方面。无论是在航空、体育、个人关系还是技术中,理解和掌握接近速度都能带来更好的结果和增强的安全性。随着我们继续在不同领域探索和应用这一概念,显然接近速度不仅仅是一个技术术语,而是支配我们世界中许多互动的基本原则。最终,掌握接近速度的重要性可以使个人做出明智的决策,无论是在驾驶飞机、参与体育活动还是应对人际关系的复杂性。因此,欣赏这个术语的细微差别及其在我们日常生活中的影响至关重要。