pressure distribution

简明释义

压力分布大气压分布

英英释义

例句

1.The researchers measured the pressure distribution 压力分布 in the soil to assess its stability.

研究人员测量了土壤中的压力分布 压力分布以评估其稳定性。

2.The engineer analyzed the pressure distribution 压力分布 across the surface of the wing to optimize its design.

工程师分析了机翼表面的压力分布 压力分布以优化其设计。

3.To improve safety, the team studied the pressure distribution 压力分布 in the reactor during operation.

为了提高安全性，团队研究了反应堆运行期间的压力分布 压力分布。

4.In fluid dynamics, understanding pressure distribution 压力分布 is crucial for predicting flow behavior.

在流体动力学中，理解压力分布 压力分布对于预测流动行为至关重要。

5.The simulation provided a detailed view of the pressure distribution 压力分布 around the object.

模拟提供了物体周围压力分布 压力分布的详细视图。

作文

Understanding the concept of pressure distribution is crucial in various fields, including engineering, physics, and even meteorology. Pressure distribution refers to the way pressure is spread over a given area, which can significantly impact how objects behave under different conditions. For instance, in engineering, knowing how pressure distribution works can help in designing structures that can withstand forces such as wind or earthquakes. When a building is subjected to external forces, the way these forces are distributed across its surface determines its stability and integrity. If the pressure distribution is uneven, it could lead to structural failure, making it essential for engineers to analyze and predict how pressure will act on their designs.In the context of fluid dynamics, pressure distribution plays an important role in understanding how fluids move and interact with surfaces. For example, when a plane flies, the air pressure around its wings varies, creating lift. The study of pressure distribution around the wings helps engineers optimize the design for better performance and fuel efficiency. Similarly, in the field of meteorology, pressure distribution is vital for predicting weather patterns. High and low-pressure areas influence wind direction and precipitation, affecting climate and weather forecasts.Moreover, pressure distribution is not limited to physical sciences. In sports science, understanding how pressure distribution affects an athlete's performance can lead to improved training techniques and equipment design. For instance, in running, the way a runner's foot strikes the ground can be analyzed through pressure distribution to enhance footwear design, providing better support and reducing the risk of injury.In summary, pressure distribution is a fundamental concept that has far-reaching implications across various disciplines. Understanding how pressure is distributed helps us design safer buildings, create more efficient vehicles, predict weather changes, and improve athletic performance. As technology advances, the methods used to analyze pressure distribution continue to evolve, leading to new discoveries and innovations that benefit society.In conclusion, grasping the intricacies of pressure distribution allows professionals in multiple fields to make informed decisions based on how pressure affects their specific area of study. Whether it's ensuring the safety of a skyscraper, optimizing an airplane's aerodynamics, or enhancing an athlete's performance, the principles of pressure distribution remain integral to progress and innovation in our world.

理解压力分布的概念在工程、物理甚至气象等多个领域都至关重要。压力分布是指压力在特定区域内的分布方式，这对物体在不同条件下的行为产生重大影响。例如，在工程学中，了解压力分布的工作原理可以帮助设计能够承受风或地震等力量的结构。当建筑物受到外部力量的作用时，这些力量在其表面上的分布方式决定了其稳定性和完整性。如果压力分布不均匀，可能会导致结构失效，因此工程师必须分析和预测压力将如何作用于他们的设计。在流体动力学的背景下，压力分布在理解流体如何移动和与表面相互作用方面起着重要作用。例如，当飞机飞行时，翼周围的空气压力会变化，从而产生升力。研究翼周围的压力分布有助于工程师优化设计，以提高性能和燃油效率。同样，在气象学领域，压力分布对预测天气模式至关重要。高压和低压区域影响风向和降水，影响气候和天气预报。此外，压力分布并不仅限于自然科学。在体育科学中，理解压力分布如何影响运动员的表现可以带来改进的训练技术和设备设计。例如，在跑步中，分析跑者脚击地面的方式可以通过压力分布来进行，从而增强鞋类设计，提供更好的支持并减少受伤风险。总之，压力分布是一个基本概念，在各个学科中具有深远的影响。理解压力如何分布有助于我们设计更安全的建筑、创造更高效的交通工具、预测天气变化以及改善运动表现。随着技术的进步，用于分析压力分布的方法不断发展，导致新的发现和创新，造福社会。最后，掌握压力分布的复杂性使多个领域的专业人士能够根据压力如何影响其特定研究领域做出明智的决策。无论是确保摩天大楼的安全、优化飞机的空气动力学，还是提升运动员的表现，压力分布的原理在我们世界的进步和创新中始终不可或缺。