balanced load

简明释义

平衡负载

英英释义

例句

1.The truck driver adjusted the cargo to achieve a balanced load for safer transportation.

卡车司机调整货物以实现更安全运输的平衡负载。

2.The fitness trainer emphasized the importance of a balanced load during weight training.

健身教练强调在力量训练中保持平衡负载的重要性。

3.A balanced load in a power distribution system reduces the risk of outages.

电力分配系统中的平衡负载降低了停电的风险。

4.In electrical circuits, a balanced load helps to maintain stability and efficiency.

在电路中，平衡负载有助于保持稳定性和效率。

5.The engineer ensured that the system operated with a balanced load to prevent overheating.

工程师确保系统在运行时保持平衡负载以防止过热。

作文

In the realm of engineering and physics, the concept of a balanced load is crucial for maintaining stability and efficiency in various structures and systems. A balanced load refers to a situation where forces are evenly distributed across an object or system, preventing any undue stress or strain that could lead to failure or collapse. This principle is not only applicable in mechanical engineering but also in electrical systems, where it ensures that power is distributed evenly among different components.For instance, consider a bridge designed to support vehicles and pedestrians. If the weight of the vehicles is not evenly distributed across the bridge, it can create a balanced load scenario that leads to structural weaknesses. Engineers must calculate the maximum load capacity and ensure that the design accommodates various load distributions, so that the bridge remains safe and functional. This careful consideration of a balanced load is essential for the longevity and reliability of the structure.Similarly, in the field of electrical engineering, a balanced load is vital for the efficient operation of power systems. In a three-phase electrical system, for example, if the loads on each phase are not balanced, it can lead to overheating, voltage imbalances, and even equipment failure. Therefore, engineers strive to achieve a balanced load by distributing electrical loads evenly across all phases, which enhances system performance and reduces the risk of outages.The significance of a balanced load extends beyond engineering; it can also be observed in everyday life. For instance, when packing a suitcase for travel, achieving a balanced load is important for ease of carrying. If one side of the suitcase is significantly heavier than the other, it becomes cumbersome to carry and may lead to discomfort or injury. By distributing items evenly, travelers can ensure a more comfortable experience.Moreover, the concept of a balanced load can be applied to our daily schedules and workloads. In today's fast-paced world, individuals often find themselves overwhelmed with responsibilities, leading to stress and burnout. By creating a balanced load in their personal and professional lives, individuals can improve their well-being and productivity. This might involve prioritizing tasks, delegating responsibilities, and ensuring that time is allocated for relaxation and self-care.In conclusion, the idea of a balanced load is a fundamental principle that permeates various fields, from engineering to everyday life. Understanding how to achieve and maintain a balanced load is essential for ensuring safety, efficiency, and overall well-being. Whether it’s designing a robust structure, managing electrical systems, packing a suitcase, or organizing a daily schedule, striving for balance can lead to improved outcomes and a more harmonious existence. As we navigate through our complex lives, let us remember the importance of a balanced load and apply this principle to enhance our experiences and achievements.

在工程和物理学领域，‘平衡负载’的概念对于维护各种结构和系统的稳定性和效率至关重要。‘平衡负载’指的是一种情况，其中力量均匀分布在物体或系统上，防止任何不当的压力或应变，这可能导致故障或崩溃。这一原理不仅适用于机械工程，也适用于电气系统，在这些系统中，它确保电力在不同组件之间均匀分配。例如，考虑一座设计用来支撑车辆和行人的桥。如果车辆的重量没有均匀分布在桥上，就可能形成一个‘平衡负载’的场景，导致结构弱点。工程师必须计算最大载荷能力，并确保设计能够容纳各种载荷分布，以使桥梁保持安全和功能正常。这种对‘平衡负载’的仔细考虑对于结构的耐久性和可靠性至关重要。同样，在电气工程领域，‘平衡负载’对于电力系统的有效运行至关重要。在三相电气系统中，例如，如果每个相上的负载不平衡，就可能导致过热、电压不平衡甚至设备故障。因此，工程师努力通过在所有相之间均匀分配电气负载来实现‘平衡负载’，这增强了系统性能并降低了停电的风险。‘平衡负载’的意义超越了工程；它也可以在日常生活中观察到。例如，当为旅行打包行李时，实现‘平衡负载’对于携带的便利性至关重要。如果行李的一侧明显比另一侧重，则携带起来会变得笨重，可能导致不适或受伤。通过均匀分配物品，旅行者可以确保更舒适的体验。此外，‘平衡负载’的概念可以应用于我们的日常日程和工作量。在当今快节奏的世界中，个人经常发现自己被责任压得喘不过气来，导致压力和倦怠。通过在个人和职业生活中创造‘平衡负载’，个人可以改善他们的幸福感和生产力。这可能涉及优先处理任务、委派责任，并确保分配时间进行放松和自我照顾。总之，‘平衡负载’的理念是一个基本原则，渗透到各个领域，从工程到日常生活。理解如何实现和维持‘平衡负载’对于确保安全、效率和整体幸福感至关重要。无论是设计坚固的结构、管理电气系统、打包行李还是组织日常日程，追求平衡都可以带来更好的结果和更和谐的存在。随着我们在复杂的生活中导航，让我们记住‘平衡负载’的重要性，并将这一原则应用于提升我们的体验和成就。