balanced bridge

简明释义

平衡电桥;

英英释义

例句

1.In our physics lab, we used a balanced bridge to measure unknown resistances.

在我们的物理实验室中，我们使用平衡桥来测量未知电阻。

2.The engineer designed a balanced bridge to ensure stability under heavy loads.

工程师设计了一座平衡桥以确保在重载下的稳定性。

3.The architect recommended a balanced bridge design for the new pedestrian walkway.

建筑师推荐了一种平衡桥设计用于新的行人天桥。

4.The balanced bridge allows for equal distribution of weight across its structure.

这座平衡桥允许其结构上的重量均匀分布。

5.Using a balanced bridge in the circuit helps to minimize signal distortion.

在电路中使用平衡桥有助于最小化信号失真。

作文

In the realm of engineering and architecture, the concept of a balanced bridge is crucial for creating structures that can withstand various forces while maintaining stability. A balanced bridge refers to a bridge design that distributes weight evenly across its components, ensuring that no single part bears too much load. This principle not only enhances the durability of the bridge but also ensures the safety of those who use it. When designing a balanced bridge, engineers must consider several factors including the materials used, the span of the bridge, and the environmental conditions it will face. For instance, a bridge made from lightweight materials may require additional support to maintain balance, while a heavier structure could be more stable under certain conditions. The choice of materials directly impacts the overall performance of the balanced bridge. Moreover, the design process involves extensive calculations to ensure that the forces acting on the bridge are evenly distributed. This includes analyzing the weight of vehicles that will cross the bridge, as well as environmental factors such as wind and seismic activity. Engineers use sophisticated software to simulate these conditions and make necessary adjustments to the design. A practical example of a balanced bridge can be seen in the design of suspension bridges, where cables distribute the weight of the bridge deck evenly across the towers. This design allows for longer spans without the need for numerous supports, making it an efficient choice for crossing wide bodies of water or deep valleys. The Golden Gate Bridge in San Francisco is a prime example of this type of engineering marvel, showcasing how a balanced bridge can combine aesthetic appeal with functionality. In addition to structural integrity, a balanced bridge also plays a significant role in the economic aspect of construction. By optimizing the design to achieve balance, engineers can reduce material costs and construction time. This efficiency not only saves money but also minimizes the environmental impact of building new bridges. As cities continue to grow and infrastructure needs evolve, the demand for innovative and sustainable designs like the balanced bridge will only increase. Furthermore, the concept of a balanced bridge can be metaphorically applied to various aspects of life. Just as a bridge requires balance to function properly, individuals and communities must find equilibrium in their daily lives. This can involve balancing work and personal life, managing relationships, and ensuring mental and physical health. In essence, achieving a balanced bridge in life means finding harmony amidst chaos, allowing us to navigate challenges effectively. In conclusion, the idea of a balanced bridge is not just limited to physical structures; it embodies a principle that can be applied to many areas of life. Whether in engineering or personal development, balance is essential for success and sustainability. As we move forward, understanding and implementing the concept of a balanced bridge will be vital in creating resilient systems that endure the tests of time and adversity.

在工程和建筑领域，平衡桥的概念对于创建能够承受各种力量并保持稳定的结构至关重要。平衡桥指的是一种桥梁设计，它将重量均匀地分配到各个组件上，确保没有单一部分承受过多的负荷。这一原则不仅增强了桥梁的耐久性，还确保了使用者的安全。在设计平衡桥时，工程师必须考虑多个因素，包括使用的材料、桥梁的跨度以及它所面临的环境条件。例如，采用轻质材料建造的桥梁可能需要额外的支撑以保持平衡，而较重的结构在某些条件下可能更为稳定。材料的选择直接影响平衡桥的整体性能。此外，设计过程涉及广泛的计算，以确保作用于桥梁的力量均匀分布。这包括分析将通过桥梁的车辆重量，以及风和地震活动等环境因素。工程师使用复杂的软件来模拟这些条件，并对设计进行必要的调整。一个实际的平衡桥示例可以在悬索桥的设计中看到，在这种设计中，电缆将桥面板的重量均匀分配到塔架上。这种设计允许在没有众多支撑的情况下实现更长的跨度，使其成为跨越宽阔水域或深谷的高效选择。旧金山的金门大桥就是这种工程奇迹的典范，展示了如何将美学与功能相结合的平衡桥。除了结构完整性，平衡桥还在建设的经济方面发挥着重要作用。通过优化设计以实现平衡，工程师可以减少材料成本和施工时间。这种效率不仅节省了资金，还最小化了新桥建设对环境的影响。随着城市的不断发展和基础设施需求的演变，对像平衡桥这样的创新和可持续设计的需求只会增加。此外，平衡桥的概念还可以隐喻性地应用于生活的各个方面。正如桥梁需要平衡才能正常运作，个人和社区也必须在日常生活中找到平衡。这可能涉及平衡工作与个人生活、管理人际关系以及确保心理和身体健康。从本质上讲，实现生活中的平衡桥意味着在混乱中寻找和谐，使我们能够有效应对挑战。总之，平衡桥的理念不仅限于物理结构；它体现了一种可以应用于许多生活领域的原则。无论是在工程还是个人发展中，平衡对于成功和可持续性至关重要。随着我们向前发展，理解和实施平衡桥的概念将在创建经得起时间和逆境考验的韧性系统中发挥关键作用。