balance weight

简明释义

平衡锤

英英释义

例句

1.The pilot had to check the balance weight 平衡重量 of the aircraft before takeoff.

飞行员在起飞前必须检查飞机的balance weight 平衡重量。

2.Adjusting the balance weight 平衡重量 on the bicycle can help improve handling and performance.

调整自行车上的balance weight 平衡重量可以帮助改善操控性和性能。

3.The engineer calculated the balance weight 平衡重量 needed to keep the structure stable during the test.

工程师计算了在测试期间保持结构稳定所需的balance weight 平衡重量。

4.To ensure the machine operates smoothly, we need to adjust the balance weight 平衡重量 on the flywheel.

为了确保机器平稳运行，我们需要调整飞轮上的balance weight 平衡重量。

5.In weightlifting, athletes often practice with a balance weight 平衡重量 to improve their stability.

在举重中，运动员通常会使用balance weight 平衡重量来提高稳定性。

作文

In the world of physics and engineering, the concept of balance weight plays a crucial role in ensuring stability and functionality. The term balance weight refers to a weight that is used to counteract other forces or weights, creating equilibrium in a system. This principle is not only applicable in mechanical devices but also in various aspects of our daily lives. Understanding how to effectively use balance weight can lead to better designs and improved safety in numerous applications.For instance, consider the design of a seesaw. The seesaw operates on the principle of balance, where two individuals sit on opposite ends. To achieve a state of equilibrium, the combined weight of one person must be balanced by the weight of the other. If one individual is significantly heavier, the lighter person may need to adjust their position or add additional balance weight in the form of a backpack or other items to create a fair play environment. This simple example illustrates how balance weight is essential for achieving stability in everyday situations.In engineering, the use of balance weight becomes even more critical. For example, in the design of vehicles, engineers often incorporate balance weight into the structure to ensure that the vehicle remains stable during operation. When a car turns, the distribution of weight affects its handling and performance. By strategically placing balance weight within the vehicle, manufacturers can enhance safety and improve the driving experience. This careful consideration of weight distribution is vital in preventing accidents and ensuring that the vehicle responds predictably to driver inputs.Moreover, in the field of aviation, balance weight is equally important. Aircraft are designed with specific weight and balance limits to ensure safe flight. If an aircraft is not properly balanced, it can lead to catastrophic failures during takeoff, flight, or landing. Pilots and engineers must calculate the balance weight of cargo, passengers, and fuel to maintain optimal performance. This meticulous attention to detail reflects the significance of balance weight in the aviation industry, where safety is paramount.The concept of balance weight is not limited to physical objects; it can also be applied metaphorically in our lives. For example, achieving a work-life balance requires us to weigh our commitments and responsibilities. Just as engineers must consider balance weight in their designs, individuals must assess their priorities to create harmony in their lives. By recognizing what is essential and allocating our time and energy accordingly, we can achieve a sense of balance that fosters well-being and productivity.In conclusion, the idea of balance weight transcends the realms of physics and engineering, finding relevance in various aspects of life. Whether we are designing machines, piloting aircraft, or striving for personal equilibrium, understanding the importance of balance weight can lead to safer, more effective outcomes. As we continue to explore the principles of balance in both tangible and abstract forms, we can appreciate the intricate connections that bind our experiences together. Ultimately, mastering the concept of balance weight can empower us to create stability and success in all endeavors.

在物理和工程的世界中，平衡重量的概念在确保稳定性和功能性方面发挥着至关重要的作用。术语平衡重量指的是用于抵消其他力量或重量的重量，从而在一个系统中创造平衡。这一原则不仅适用于机械设备，也适用于我们日常生活的各个方面。有效理解如何使用平衡重量可以带来更好的设计，并在众多应用中提高安全性。例如，考虑一下秋千的设计。秋千基于平衡的原则，两个个体坐在相对的两端。为了实现平衡状态，一个人的总重量必须与另一个人的重量相平衡。如果一个人明显重一些，轻的人可能需要调整自己的位置，或者通过背包或其他物品增加额外的平衡重量，以创造一个公平的游戏环境。这个简单的例子说明了平衡重量在日常生活中实现稳定性的重要性。在工程学中，平衡重量的使用变得更加关键。例如，在车辆设计中，工程师通常会在结构中加入平衡重量，以确保车辆在操作过程中保持稳定。当汽车转弯时，重量的分布会影响其操控性和性能。通过在车辆内战略性地放置平衡重量，制造商可以增强安全性并改善驾驶体验。这种对重量分布的细致考虑对于防止事故和确保车辆对驾驶员输入的可预测响应至关重要。此外，在航空领域，平衡重量同样重要。飞机的设计有特定的重量和平衡限制，以确保安全飞行。如果飞机没有正确平衡，可能会导致在起飞、飞行或着陆时发生灾难性故障。飞行员和工程师必须计算货物、乘客和燃料的平衡重量，以保持最佳性能。这种对细节的严格关注反映了平衡重量在航空工业中的重要性，在这里安全是首要任务。平衡重量的概念不仅限于物体；它也可以在我们的生活中比喻性地应用。例如，实现工作与生活的平衡需要我们权衡自己的承诺和责任。正如工程师在设计中必须考虑平衡重量，个人也必须评估优先事项，以创造生活的和谐。通过识别什么是必要的，并相应地分配我们的时间和精力，我们可以实现一种促进幸福感和生产力的平衡感。总之，平衡重量的理念超越了物理和工程的领域，在生活的各个方面都具有相关性。无论我们是在设计机器、驾驶飞机，还是努力追求个人平衡，理解平衡重量的重要性都能带来更安全、更有效的结果。当我们继续探索平衡原则在有形和抽象形式中的表现时，我们可以欣赏将我们的经历紧密联系在一起的复杂联系。最终，掌握平衡重量的概念可以使我们在所有事业中创造稳定和成功。