total load
简明释义
总负载
英英释义
例句
1.The engineer calculated the total load of the bridge to ensure it could support heavy vehicles.
工程师计算了桥的总负载以确保它能支持重型车辆。
2.The total load on the server increased significantly during the holiday season.
假期期间,服务器上的总负载显著增加。
3.To optimize performance, we must monitor the total load of all connected devices.
为了优化性能,我们必须监控所有连接设备的总负载。
4.The technician reported that the total load was exceeding the safe operating limits.
技术人员报告说,总负载超出了安全操作限制。
5.Before starting the project, we need to assess the total load that the electrical system can handle.
在开始项目之前,我们需要评估电气系统可以承受的总负载。
作文
In the realm of engineering and physics, the term total load refers to the total amount of weight or force that is applied to a structure or system. This concept is crucial in various fields such as civil engineering, mechanical engineering, and electrical engineering. Understanding the total load is essential for designing safe and efficient structures that can withstand the forces they encounter throughout their lifespan.When engineers design a building, for instance, they must calculate the total load that the structure will need to support. This includes not only the weight of the building materials but also the weight of occupants, furniture, and any additional loads that may occur, such as snow or wind pressure. By accurately determining the total load, engineers can ensure that the foundation and structural elements are adequately sized and reinforced to handle these forces without failure.In electrical engineering, the concept of total load is equally important. It refers to the total power demand on a system, which includes all the devices and appliances that consume electricity. For example, when designing an electrical grid, engineers must consider the total load that will be placed on the system during peak usage times. This ensures that the infrastructure can deliver sufficient power without overloading and causing outages.Moreover, understanding the total load is vital for sustainability efforts. In both civil and electrical engineering, knowing the total load allows for better resource management. Engineers can optimize designs to reduce unnecessary weight or power consumption, contributing to more sustainable practices. For instance, lightweight materials can be used in construction to decrease the total load, while energy-efficient appliances can lower the total load on electrical systems.In conclusion, the concept of total load is fundamental across various engineering disciplines. It encompasses the total forces or weight that structures or systems must support and plays a critical role in ensuring safety, efficiency, and sustainability. Engineers must carefully calculate the total load in their designs to prevent structural failures and optimize resource use. As we continue to advance in technology and face new challenges, a thorough understanding of the total load will remain essential for the future of engineering and design.
在工程和物理学领域,术语total load指的是施加在结构或系统上的总重量或力。这一概念在土木工程、机械工程和电气工程等多个领域至关重要。理解total load对于设计安全高效的结构至关重要,这些结构必须能够承受它们在整个生命周期中遇到的各种力。例如,当工程师设计一栋建筑时,他们必须计算出该结构需要支撑的total load。这不仅包括建筑材料的重量,还包括居民、家具以及可能出现的任何附加负荷,如雪或风压。通过准确地确定total load,工程师可以确保基础和结构元素的大小和加固程度足以承受这些力量,而不会发生故障。在电气工程中,total load的概念同样重要。它指的是系统上的总功率需求,包括所有消耗电力的设备和电器。例如,在设计电网时,工程师必须考虑在高峰使用时段施加在系统上的total load。这确保了基础设施能够提供足够的电力,而不会过载导致停电。此外,理解total load对于可持续发展努力至关重要。在土木和电气工程中,了解total load使得更好的资源管理成为可能。工程师可以优化设计,以减少不必要的重量或能耗,从而促进更可持续的实践。例如,可以在建筑中使用轻质材料来减少total load,而节能电器则可以降低电气系统上的total load。总之,total load的概念在各个工程学科中都是基础。它涵盖了结构或系统必须支撑的总力量或重量,并在确保安全、效率和可持续性方面发挥着关键作用。工程师必须仔细计算设计中的total load,以防止结构故障并优化资源使用。随着我们在技术上的不断进步以及面临新挑战,深入理解total load将继续是工程和设计未来的重要内容。
