transverse system

简明释义

横骨架式

英英释义

例句

1.Researchers are examining how the transverse system affects fluid dynamics in pipes.

研究人员正在检查横向系统如何影响管道中的流体动力学。

2.The transverse system in this vehicle design enhances aerodynamics and fuel efficiency.

该车辆设计中的横向系统增强了空气动力学和燃油效率。

3.The transverse system of the building helps distribute weight evenly across the structure.

建筑的横向系统有助于均匀分配整个结构的重量。

4.The engineer designed a new transverse system to improve the stability of the bridge.

工程师设计了一种新的横向系统以提高桥梁的稳定性。

5.In the study of biomechanics, the transverse system plays a crucial role in understanding human movement.

在生物力学研究中，横向系统在理解人类运动方面起着至关重要的作用。

作文

The concept of a transverse system is vital in various fields, including physics, engineering, and biology. A transverse system refers to a structure or mechanism that operates across or perpendicular to a primary direction of movement or force. Understanding this concept can help us better appreciate how different systems are designed and function in our world.In physics, the idea of a transverse system is often applied to waves. For instance, in a transverse wave, the oscillations occur perpendicular to the direction of the wave's travel. This is in contrast to longitudinal waves, where the oscillations occur in the same direction as the wave's travel. A classic example of a transverse wave is the ripples created when a stone is thrown into a pond. The water moves up and down while the wave travels outward, demonstrating the principles of a transverse system.In engineering, the design of bridges often incorporates the principles of a transverse system. Engineers must consider how forces will be distributed across the structure. For instance, when a vehicle crosses a bridge, the weight of the vehicle creates a downward force that the bridge must support. The design must ensure that this force is effectively transmitted across the bridge’s beams and supports, creating a stable transverse system that can handle various loads and stresses.Biologically, the human body also exhibits characteristics of a transverse system. For example, the skeletal system provides a framework that supports the body’s structure. The bones work together in a manner that allows for both vertical and horizontal movements, showcasing how a transverse system can facilitate motion in multiple directions. Muscles and tendons connect to bones in ways that create efficient movement patterns, further illustrating the importance of understanding these systems in biological contexts.Moreover, the concept of a transverse system can be observed in the way information is processed within networks. In computer science, data may be transmitted across a network in a transverse manner, where information packets move through various nodes, each contributing to the overall flow of data. This is essential for maintaining efficient communication and ensuring that data reaches its destination without significant delays.In summary, the transverse system is a multifaceted concept that appears in various disciplines. Whether we are discussing waves in physics, structural integrity in engineering, biological frameworks in anatomy, or data transmission in technology, the principles underlying a transverse system play a crucial role in shaping our understanding of how systems function. By grasping this concept, we can enhance our comprehension of complex interactions within different environments, leading to better designs, improved efficiency, and a deeper appreciation for the interconnectedness of systems in our world.

“横向系统”的概念在物理学、工程学和生物学等多个领域中至关重要。“横向系统”指的是一个结构或机制，它在主要运动或力的方向上以垂直方式运行。理解这一概念可以帮助我们更好地欣赏不同系统在我们世界中的设计和功能。在物理学中，“横向系统”的概念常常应用于波。例如，在横波中，振动发生在波传播方向的垂直方向。这与纵波相反，后者的振动发生在与波的传播方向相同的方向。横波的经典例子是当石头投进池塘时产生的涟漪。水上下移动，而波向外传播，展示了“横向系统”的原理。在工程学中，桥梁的设计通常结合了“横向系统”的原理。工程师必须考虑力如何在结构中分配。例如，当一辆车通过桥梁时，车辆的重量产生了一个向下的力，桥梁必须支撑这个力。设计必须确保这个力有效地传递到桥梁的梁和支撑上，形成一个稳定的“横向系统”，能够承受各种负载和压力。在生物学上，人类身体也表现出“横向系统”的特征。例如，骨骼系统提供了支持身体结构的框架。骨骼协同工作，以便在垂直和水平方向上都能实现运动，展示了“横向系统”如何促进多方向的运动模式。肌肉和肌腱以连接骨骼的方式，使运动模式更加高效，进一步说明了在生物学背景下理解这些系统的重要性。此外，“横向系统”的概念还可以在网络中观察到信息处理的方式。在计算机科学中，数据可能以横向的方式通过网络传输，其中信息包通过各种节点移动，每个节点都对整体数据流做出贡献。这对于维护高效的通信和确保数据在没有显著延迟的情况下到达目的地至关重要。总之，“横向系统”是一个多方面的概念，出现在各种学科中。无论我们讨论的是物理学中的波、工程学中的结构完整性、生物学中的解剖框架，还是技术中的数据传输，构成“横向系统”的原理在塑造我们对系统功能的理解中发挥着至关重要的作用。通过掌握这一概念，我们可以增强对不同环境中复杂交互的理解，从而实现更好的设计、提高效率，并更深刻地欣赏我们世界中系统的相互联系。