resultant field

简明释义

合成场

英英释义

例句

1.Engineers must calculate the resultant field when designing electromagnetic devices.

工程师在设计电磁设备时必须计算结果场。

2.In physics, the resultant field is crucial for understanding the interactions between different forces.

在物理学中，结果场对于理解不同力之间的相互作用至关重要。

3.The resultant field from the combined forces can be visualized using vector diagrams.

通过矢量图可以可视化组合力产生的结果场。

4.The magnetic properties of the material can be analyzed by examining the resultant field.

通过分析结果场，可以研究材料的磁性特性。

5.The resultant field created by the two overlapping waves can produce interesting interference patterns.

两个重叠波产生的结果场可以产生有趣的干涉图案。

作文

In the study of physics, particularly in the realm of electromagnetism, the concept of a resultant field is crucial for understanding how different forces interact with one another. A resultant field refers to the overall effect produced by combining multiple fields, whether they are electric, magnetic, or gravitational. This concept can be illustrated through the example of two overlapping magnetic fields. When two magnets are brought close together, their individual magnetic fields interact to create a new field that is different from either of the original fields. The resultant field will have a strength and direction that depend on the orientation and strength of the original fields. The importance of the resultant field extends beyond theoretical physics; it has practical applications in various technologies. For instance, in the design of electric motors, engineers must consider the resultant field created by the interaction of the magnetic fields from the stator and rotor. By optimizing the resultant field, they can enhance the efficiency and performance of the motor. Similarly, in telecommunications, understanding the resultant field of radio waves allows for better signal transmission and reception, leading to clearer communication. Moreover, the concept of a resultant field is not limited to physics alone; it can also be applied in other disciplines such as psychology and sociology. For example, when analyzing social dynamics, researchers might consider the resultant field of various social influences on an individual's behavior. Each influence can be seen as a separate 'field,' and the resultant field represents the combined effect of these influences on a person's actions and decisions. This approach helps to provide a more comprehensive understanding of human behavior in complex social environments. To grasp the full implications of the resultant field, it is essential to engage with both theoretical and practical aspects. In educational settings, students often conduct experiments that demonstrate how resultant fields are formed. For example, using iron filings on a sheet of paper placed over magnets can visually illustrate how the resultant field takes shape. Such hands-on experiences reinforce the conceptual understanding of how multiple forces can combine to create a new and unique outcome. In conclusion, the notion of a resultant field serves as a fundamental principle across various fields of study. Whether in physics, engineering, or social sciences, recognizing how individual components come together to form a cohesive whole is essential for problem-solving and innovation. As we continue to explore the intricacies of our world, the resultant field will remain a vital concept that underpins many of our scientific and technological advancements.

在物理学的研究中，特别是在电磁学领域，resultant field（合成场）的概念对于理解不同力之间的相互作用至关重要。resultant field指的是通过结合多个场（无论是电场、磁场还是引力场）所产生的整体效应。这个概念可以通过两个重叠的磁场的例子来说明。当两个磁铁靠近时，它们各自的磁场相互作用，形成一个不同于原始场的新场。resultant field的强度和方向取决于原始场的方向和强度。resultant field的重要性不仅限于理论物理；它在各种技术中也有实际应用。例如，在电动机的设计中，工程师必须考虑定子和转子之间的磁场相互作用所产生的resultant field。通过优化resultant field，他们可以提高电动机的效率和性能。同样，在电信领域，理解无线电波的resultant field可以实现更好的信号传输和接收，从而实现更清晰的通信。此外，resultant field的概念不仅限于物理学；它也可以应用于心理学和社会学等其他学科。例如，在分析社会动态时，研究人员可能会考虑对个体行为的各种社会影响的resultant field。每种影响都可以看作一个独立的“场”，而resultant field则代表这些影响对个人行为和决策的综合效果。这种方法有助于提供对复杂社会环境中人类行为的更全面理解。要充分理解resultant field的全部含义，参与理论和实践方面的学习是至关重要的。在教育环境中，学生们通常进行实验，以展示如何形成resultant field。例如，在放置在磁铁上的纸上使用铁屑可以直观地展示resultant field的形成。这种动手体验加强了对多个力如何结合形成新的独特结果的概念理解。总之，resultant field的概念作为多个研究领域的基本原则。无论是在物理学、工程学还是社会科学中，认识到个体组成部分如何结合形成一个统一的整体，对于解决问题和创新至关重要。随着我们继续探索世界的复杂性，resultant field将始终是支撑我们许多科学和技术进步的重要概念。