isodynamic

简明释义

英[ˌaɪsəʊdəˈnæmɪk]美[ˌaɪsəʊdəˈnæmɪk]

等力的

英英释义

单词用法

同义词

反义词

例句

1.A map of intensity contours is called an "isodynamic chart".

密集等值线图称为“等动力图”。

2.A map of intensity contours is called an "isodynamic chart".

密集等值线图称为“等动力图”。

3.The concept of isodynamic 等动力的 systems is crucial in understanding equilibrium in mechanics.

理解力学中的平衡时，等动力的系统概念至关重要。

4.When analyzing sports performance, athletes aim to achieve isodynamic 等动力的 movements for better efficiency.

在分析运动表现时，运动员力求实现等动力的动作以提高效率。

5.In chemistry, isodynamic 等动力的 reactions can lead to similar energy changes despite different pathways.

在化学中，等动力的反应尽管路径不同，但可以导致相似的能量变化。

6.In physics, two forces are said to be isodynamic 等动力的 when they produce the same effect on a body.

在物理学中，当两个力对一个物体产生相同的效果时，这两个力被称为等动力的。

7.The study of isodynamic 等动力的 conditions helps engineers design more efficient machines.

研究等动力的条件帮助工程师设计更高效的机器。

作文

In the field of physics and engineering, the term isodynamic refers to systems or processes that involve equal forces or energy levels. This concept is particularly significant when discussing the balance of forces in mechanical systems or the distribution of energy in various physical processes. Understanding isodynamic principles allows engineers and scientists to design more efficient machines and structures. For instance, when designing a bridge, engineers must ensure that the forces acting on the structure are balanced to prevent collapse. This requires a deep understanding of isodynamic principles to calculate the stresses and strains that the materials will experience under load.Moreover, isodynamic concepts can also be applied in the realm of biology, particularly when considering muscle movements and biomechanics. The human body operates under various forces, and understanding how these forces interact can lead to better athletic performance and injury prevention. For example, trainers often analyze the isodynamic relationships between different muscle groups to develop training programs that enhance strength and flexibility while minimizing the risk of injury.In addition to its applications in engineering and biology, the idea of isodynamic can also be extended to social sciences. In sociology, researchers may explore how equal forces within a community can lead to stable social dynamics. When individuals in a society exert equal influence on each other, it creates a balance that can lead to harmonious living conditions. Conversely, an imbalance of power can lead to conflict and instability, making the study of isodynamic interactions crucial for understanding social structures.Furthermore, the concept of isodynamic is essential in economics as well. Economists often examine how different sectors of the economy exert equal pressure on market prices and resource allocation. When markets operate under isodynamic conditions, supply and demand are balanced, leading to stable prices and economic growth. Understanding these dynamics can help policymakers create strategies that promote economic stability and growth by ensuring that no single sector dominates the market.In conclusion, the term isodynamic encompasses a wide range of applications across various fields, including physics, engineering, biology, sociology, and economics. Mastering the concept of isodynamic is crucial for professionals in these fields as it enables them to analyze systems, predict outcomes, and design solutions that maintain balance and efficiency. Whether it is through constructing a resilient bridge, enhancing athletic performance, fostering social harmony, or stabilizing economic markets, the principles of isodynamic play a vital role in our understanding of the interconnectedness of forces and their impacts on the world around us.

在物理和工程领域，术语isodynamic指的是涉及相等的力或能量水平的系统或过程。这个概念在讨论机械系统中的力平衡或各种物理过程中的能量分布时尤为重要。理解isodynamic原理使工程师和科学家能够设计出更高效的机器和结构。例如，在设计桥梁时，工程师必须确保作用于结构上的力量是平衡的，以防止倒塌。这需要深刻理解isodynamic原理，以计算材料在负载下所经历的应力和应变。此外，isodynamic概念也可以应用于生物学领域，特别是在考虑肌肉运动和生物力学时。人体在各种力量下运作，理解这些力量如何相互作用可以提高运动表现并预防受伤。例如，训练师通常分析不同肌肉群之间的isodynamic关系，以制定增强力量和灵活性的训练计划，同时最小化受伤风险。除了在工程和生物学中的应用外，isodynamic的概念还可以扩展到社会科学。在社会学中，研究人员可能会探讨一个社区内的相等力量如何导致稳定的社会动态。当社会中的个体对彼此施加相等的影响时，就会形成一种平衡，从而导致和谐的生活条件。相反，权力的不平衡可能导致冲突和不稳定，因此研究isodynamic互动对于理解社会结构至关重要。此外，isodynamic的概念在经济学中也至关重要。经济学家常常研究经济各部门如何对市场价格和资源分配施加相等的压力。当市场在isodynamic条件下运作时，供需平衡，导致价格和经济增长的稳定。理解这些动态可以帮助政策制定者制定促进经济稳定和增长的策略，确保没有单一部门主导市场。总之，术语isodynamic涵盖了多个领域的广泛应用，包括物理学、工程学、生物学、社会学和经济学。掌握isodynamic的概念对于这些领域的专业人士至关重要，因为它使他们能够分析系统、预测结果并设计保持平衡和效率的解决方案。无论是通过构建坚固的桥梁、提升运动表现、促进社会和谐，还是稳定经济市场，isodynamic的原理在我们理解力量的相互联系及其对周围世界的影响中发挥着至关重要的作用。