safety falling velocity

简明释义

安全降落速度

英英释义

例句

1.In aviation, understanding the safety falling velocity 安全落速 is crucial during emergency landings.

在航空领域，理解安全落速安全落速在紧急着陆时至关重要。

2.Engineers calculated the safety falling velocity 安全落速 for the roller coaster to ensure passenger safety.

工程师计算了过山车的安全落速安全落速以确保乘客的安全。

3.To prevent injuries, the product specifications included a maximum safety falling velocity 安全落速 for the device.

为了防止受伤，产品规格中包括了设备的最大安全落速安全落速。

4.The parachute was designed to deploy at a safety falling velocity 安全落速 of no more than 5 meters per second.

这款降落伞的设计是在不超过每秒5米的安全落速安全落速下展开的。

5.The safety team reviewed the safety falling velocity 安全落速 of the cargo during transport.

安全团队审核了货物运输过程中的安全落速安全落速。

作文

In the field of engineering and safety management, understanding the concept of safety falling velocity is crucial. This term refers to the maximum speed at which an object can fall without causing significant harm to the object itself or to people nearby. It is a vital parameter in the design and analysis of various systems, especially those involving heights, such as buildings, bridges, and amusement park rides. By ensuring that the safety falling velocity is maintained within acceptable limits, engineers can mitigate risks associated with falling objects and enhance overall safety. One of the key factors influencing safety falling velocity is the material properties of the object. Different materials have varying levels of impact resistance, which affects how they behave upon hitting the ground. For example, a rubber ball can absorb shock and bounce back, whereas a glass object may shatter upon impact. Engineers must consider these characteristics when designing structures to ensure that any potential falling objects do not exceed the safety falling velocity that would lead to catastrophic failure or injury.Moreover, the height from which an object falls also plays a significant role in determining its safety falling velocity. The higher the drop, the greater the potential energy converted into kinetic energy, resulting in a faster falling speed. This is why safety regulations often dictate specific heights for construction sites and recreational facilities. By calculating the safety falling velocity for various scenarios, engineers can implement safety measures such as nets, barriers, and warning signs to protect individuals in the vicinity of potential hazards.Another important aspect of safety falling velocity is its application in accident prevention. In industries such as construction, workers are often exposed to the risk of falling objects. By understanding the safety falling velocity, site managers can train workers to recognize dangerous situations and take appropriate precautions. For instance, hard hats are designed to withstand impacts at certain velocities, ensuring that workers are protected from falling debris. Additionally, safety harnesses and lanyards are employed to prevent falls from significant heights, further reducing the risks associated with high safety falling velocity.In conclusion, the concept of safety falling velocity is essential for ensuring safety in various fields, particularly in engineering and construction. By understanding the factors that influence this parameter, professionals can design safer environments and implement effective safety measures. As technology advances and new materials are developed, the assessment and management of safety falling velocity will continue to evolve, ultimately leading to improved safety standards and reduced accidents. Therefore, it is imperative for engineers and safety managers to remain vigilant and knowledgeable about this critical aspect of safety management.

在工程和安全管理领域，理解“安全坠落速度”的概念至关重要。这个术语指的是一个物体可以下落的最大速度，而不会对物体本身或附近的人造成重大伤害。它是设计和分析各种系统的重要参数，尤其是涉及高度的系统，如建筑物、桥梁和游乐园设施。通过确保“安全坠落速度”保持在可接受的限制内，工程师可以减轻与坠落物体相关的风险，并增强整体安全性。影响“安全坠落速度”的关键因素之一是物体的材料特性。不同的材料具有不同的冲击抗力，这影响它们在撞击地面时的表现。例如，一个橡胶球可以吸收冲击并反弹，而一个玻璃物体可能会在撞击时破碎。工程师在设计结构时必须考虑这些特性，以确保任何潜在的坠落物体不会超过可能导致灾难性故障或伤害的“安全坠落速度”。此外，物体坠落的高度也在确定其“安全坠落速度”中起着重要作用。掉落的高度越高，转化为动能的势能就越大，从而导致下落速度更快。这就是为什么安全法规通常规定建筑工地和娱乐场所的特定高度。通过计算各种情况下的“安全坠落速度”，工程师可以实施安全措施，如网、屏障和警告标志，以保护附近的人员免受潜在危险的伤害。“安全坠落速度”的另一个重要方面是其在事故预防中的应用。在建筑等行业，工人经常面临坠落物体的风险。通过理解“安全坠落速度”，现场经理可以培训工人识别危险情况并采取适当的预防措施。例如，安全帽设计用于承受一定速度下的冲击，确保工人免受坠落碎片的伤害。此外，安全带和绳索被用来防止从高处坠落，进一步降低与高“安全坠落速度”相关的风险。总之，“安全坠落速度”的概念对于确保各个领域的安全至关重要，特别是在工程和建筑方面。通过理解影响这一参数的因素，专业人员可以设计更安全的环境并实施有效的安全措施。随着技术的进步和新材料的发展，对“安全坠落速度”的评估和管理将继续演变，最终导致安全标准的提高和事故的减少。因此，工程师和安全管理人员必须保持警惕，了解这一安全管理的关键方面。