repulsive force

简明释义

排斥力

英英释义

例句

1.In physics, repulsive force is often observed in electric charges that are similar.

在物理学中，类似的电荷之间常常会观察到排斥力。

2.The magnets experienced a strong repulsive force when the same poles were brought together.

当相同极的磁铁靠近时，产生了强烈的排斥力。

3.The repulsive force in this experiment demonstrates how like charges behave.

这个实验中的排斥力展示了相同电荷的行为。

4.When the two ends of the bar magnet are aligned incorrectly, they exert a repulsive force.

当条形磁铁的两端对齐不正确时，它们会施加排斥力。

5.The repulsive force between the two charged particles prevented them from coming close.

两个带电粒子之间的排斥力阻止它们靠近。

作文

In the realm of physics, forces play a crucial role in understanding how objects interact with one another. One particularly intriguing concept is that of repulsive 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 level of atomic interactions to the macroscopic scale of celestial bodies. Understanding repulsive force not only enhances our comprehension of physical laws but also has practical implications in technology and engineering.At the atomic level, repulsive force is a fundamental aspect of electromagnetic interactions. When two atoms approach each other, their electrons begin to repel due to the negative charges they carry. This repulsion prevents atoms from occupying the same space, which is essential for maintaining the structure of matter. Without this repulsive force, atoms would collapse into one another, leading to a universe devoid of solid objects. This principle is vital in chemistry, as it explains why molecules have specific shapes and why certain substances are solid, liquid, or gas at room temperature.On a larger scale, repulsive force can be observed in the behavior of magnets. When two like poles of a magnet come close, they exert a repulsive force that pushes them apart. This property is utilized in various applications, such as magnetic levitation trains, which use repulsive forces to float above the tracks, reducing friction and allowing for high-speed travel. The ability to harness repulsive force in technology demonstrates its significance beyond theoretical physics.Furthermore, repulsive force is not limited to physical interactions; it also plays a role in social dynamics. For instance, in psychology, people may experience a repulsive force in their relationships when they encounter conflicting values or personalities. This metaphorical application of the term illustrates how the concept transcends its scientific origins, influencing human behavior and decision-making.The study of repulsive force extends into fields such as engineering, where understanding the forces at play can lead to better designs and innovations. Engineers must account for repulsive forces when creating structures that withstand environmental pressures or when designing vehicles that need to navigate through various terrains. The principles of physics, including repulsive force, provide the foundation for creating safe and efficient designs.In conclusion, the concept of repulsive force is integral to both the physical sciences and everyday life. From the atomic interactions that form the basis of matter to the applications in technology and social dynamics, repulsive force helps us understand the world around us. By exploring this force, we gain insights into the fundamental principles of nature and the ways in which they influence our lives. As we continue to study and apply these concepts, we unlock new possibilities for innovation and understanding, reinforcing the importance of repulsive force in our quest for knowledge.

在物理学领域，力在理解物体如何相互作用中发挥着至关重要的作用。一个特别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，从原子相互作用的微观层面到天体的宏观尺度。理解排斥力不仅增强了我们对物理法则的理解，而且在技术和工程中具有实际意义。在原子层面，排斥力是电磁相互作用的基本方面。当两个原子靠近时，它们的电子由于带有负电荷而开始相互排斥。这种排斥防止原子占据同一空间，这对维持物质结构至关重要。如果没有这种排斥力，原子将会相互坍塌，导致一个没有固体物体的宇宙。这个原理在化学中至关重要，因为它解释了分子为什么具有特定形状，以及为什么某些物质在室温下是固态、液态或气态。在更大规模上，排斥力可以在磁铁的行为中观察到。当两个相同极性的磁铁靠近时，它们会施加一种排斥力，将它们推开。这种特性在各种应用中得到了利用，例如磁悬浮列车，它利用排斥力漂浮在轨道上，减少摩擦并允许高速行驶。利用排斥力的能力展示了它在理论物理之外的重要性。此外，排斥力不仅限于物理相互作用；它在社会动态中也发挥着作用。例如，在心理学中，当人们遇到价值观或个性冲突时，可能会经历一种排斥力。这一术语的隐喻应用说明了这一概念如何超越其科学起源，影响人类行为和决策。对排斥力的研究扩展到工程等领域，在这些领域，理解所涉及的力可以带来更好的设计和创新。工程师在创建能够承受环境压力的结构或设计需要在各种地形中导航的车辆时，必须考虑排斥力。物理学的原理，包括排斥力，为创造安全和高效的设计提供了基础。总之，排斥力概念对于物理科学和日常生活都是不可或缺的。从构成物质基础的原子相互作用到技术和社会动态中的应用，排斥力帮助我们理解周围的世界。通过探索这种力量，我们获得了对自然基本原则的洞察，以及它们如何影响我们的生活。随着我们继续研究和应用这些概念，我们为创新和理解开启了新的可能性，强调了排斥力在我们追求知识中的重要性。