repelling force

简明释义

排斥力

英英释义

例句

1.The repelling force of the electric field caused the particles to move away from each other.

电场的排斥力导致粒子彼此远离。

2.The magnets created a strong repelling force that pushed the two pieces apart.

这些磁铁产生了强大的排斥力，将这两块物体推开。

3.In physics, the repelling force between like charges is a fundamental concept.

在物理学中，相同电荷之间的排斥力是一个基本概念。

4.The repelling force between the two poles of the magnet prevented them from touching.

两个磁极之间的排斥力阻止了它们接触。

5.During the experiment, we observed a noticeable repelling force when the objects were brought close.

在实验过程中，当物体靠近时，我们观察到了明显的排斥力。

作文

In the realm of physics, forces play a crucial role in shaping our understanding of the universe. One such interesting concept is the repelling force, which refers to the force that pushes two objects away from each other. This phenomenon can be observed in various contexts, from the microscopic interactions between atoms to the macroscopic behavior of magnets. Understanding the nature of repelling forces not only enriches our knowledge of physical laws but also has practical applications in technology and engineering.At the atomic level, repelling forces arise due to the electromagnetic interactions between charged particles. For instance, when two negatively charged electrons come close to one another, they experience a repelling force that pushes them apart. This fundamental principle is essential for maintaining the structure of matter, as it prevents electrons from collapsing into the nucleus of an atom. The balance between these repelling forces and the attractive forces from positively charged protons ensures the stability of atoms, which are the building blocks of all substances.In everyday life, we can observe repelling forces through the use of magnets. When two magnets are brought close together, they either attract or repel each other depending on their orientation. Like poles of a magnet (north-north or south-south) produce a repelling force, while opposite poles (north-south) create an attractive force. This characteristic is utilized in various applications, such as magnetic levitation trains, which rely on repelling forces to float above the tracks, reducing friction and allowing for high-speed travel.The concept of repelling forces extends beyond physical interactions. In social dynamics, we can draw parallels to human relationships. Just as certain physical entities may repel each other, individuals often find themselves drawn to or repelled by others based on personality traits, beliefs, or behaviors. For example, people with similar interests and values tend to form strong connections, while those with conflicting views may experience a repelling force that keeps them apart. This metaphorical application of repelling forces highlights the complexities of human interactions and the underlying principles that govern them.Moreover, in the context of technology, engineers often harness the power of repelling forces to create innovative solutions. For instance, in the design of certain types of machinery, repelling forces are used to prevent parts from coming into contact, thereby reducing wear and tear. Similarly, in the field of robotics, repelling forces can be employed to enable precise movements and manipulations, allowing robots to perform tasks with greater efficiency.In conclusion, the concept of repelling force is a fascinating aspect of both physics and human interaction. By exploring how repelling forces function at different levels, we gain insight into the fundamental principles that govern our world. Whether in the realm of atoms, magnets, or social dynamics, the idea of repelling forces serves as a reminder of the intricate balance between attraction and repulsion that shapes our experiences. As we continue to study and apply these concepts, we unlock new possibilities for innovation and understanding in our ever-evolving world.

在物理学的领域中，力在塑造我们对宇宙的理解方面发挥着至关重要的作用。一个有趣的概念是排斥力，它指的是将两个物体推开彼此的力量。这种现象可以在各种背景下观察到，从原子之间的微观相互作用到磁铁的宏观行为。理解排斥力的性质不仅丰富了我们对物理法则的知识，而且在技术和工程中具有实际应用。在原子层面上，排斥力是由于带电粒子之间的电磁相互作用而产生的。例如，当两个带负电的电子靠近时，它们会经历一种排斥力，将它们推开。这一基本原理对于维持物质的结构至关重要，因为它防止电子坠入原子的核中。负电荷的电子与正电荷的质子之间的这种排斥力与吸引力之间的平衡确保了原子的稳定性，而原子是所有物质的构建块。在日常生活中，我们可以通过使用磁铁观察到排斥力。当两个磁铁靠近时，取决于它们的方向，它们要么相互吸引，要么相互排斥。磁铁的同极（北-北或南-南）产生排斥力，而异极（北-南）则产生吸引力。这一特性在各种应用中得到了利用，例如磁悬浮列车，它依赖于排斥力在轨道上悬浮，减少摩擦，从而实现高速旅行。排斥力的概念超越了物理相互作用。在社会动态中，我们可以将其与人际关系进行类比。正如某些物理实体可能相互排斥一样，个体往往会因为个性特征、信仰或行为而被他人吸引或排斥。例如，具有相似兴趣和价值观的人往往形成强烈的联系，而那些存在冲突观点的人可能会经历一种排斥力，使他们保持距离。这种排斥力的隐喻应用突显了人际互动的复杂性以及支配它们的基本原则。此外，在技术背景下，工程师们常常利用排斥力的力量来创造创新解决方案。例如，在某些类型的机械设计中，排斥力用于防止部件接触，从而减少磨损。同样，在机器人技术领域，排斥力可以用于实现精确的运动和操作，使机器人能够更高效地执行任务。总之，排斥力的概念是物理学和人际互动的一个迷人方面。通过探索排斥力在不同层面上的功能，我们获得了对支配我们世界的基本原则的洞察。无论是在原子、磁铁还是社会动态的领域，排斥力的思想提醒我们吸引与排斥之间的复杂平衡，这种平衡塑造了我们的经历。随着我们继续研究和应用这些概念，我们为在不断发展的世界中创新和理解开启了新的可能性。