field distribution

简明释义

场分布

英英释义

例句

1.The researchers analyzed the field distribution of plant species in the region.

研究人员分析了该地区植物物种的领域分布。

2.The marketing team studied the field distribution of consumer preferences across regions.

市场团队研究了消费者偏好的领域分布在各个地区的情况。

3.In ecology, field distribution refers to how species are spread across different habitats.

在生态学中，领域分布指的是物种在不同栖息地中的分布情况。

4.Understanding the field distribution of demographics can help in urban planning.

了解人口的领域分布可以帮助城市规划。

5.The software uses algorithms to predict the field distribution of weather patterns.

该软件使用算法预测天气模式的领域分布。

作文

In the realm of science and engineering, the term field distribution refers to the way in which a particular field, such as an electric or magnetic field, is spread out or distributed over a given area or volume. Understanding field distribution is crucial for various applications, including telecommunications, medical imaging, and even environmental studies. For instance, in telecommunications, the distribution of electromagnetic fields can affect the quality of signals transmitted over distances. Engineers must analyze the field distribution to ensure that signals are strong and clear, minimizing interference from obstacles or other sources of noise.The concept of field distribution is not limited to telecommunications; it also plays a significant role in the field of medicine. In techniques like Magnetic Resonance Imaging (MRI), the field distribution of the magnetic field is vital for producing high-quality images of the human body. A uniform field distribution ensures that the images are clear and accurate, allowing doctors to diagnose conditions effectively. Any irregularities in the field distribution can lead to poor image quality, which could hinder proper diagnosis and treatment.Moreover, field distribution has implications in environmental science as well. For example, when studying pollutant dispersion in the atmosphere, researchers need to understand how various factors influence the field distribution of these pollutants. Wind patterns, temperature gradients, and topography can all affect how pollutants are distributed in the air. By analyzing the field distribution, scientists can predict areas that may be at higher risk for pollution exposure, leading to better public health interventions and policies.To further illustrate the importance of field distribution, consider the example of renewable energy technologies, particularly wind turbines. The efficiency of wind energy generation depends significantly on the field distribution of wind across different terrains. Engineers must carefully assess the field distribution of wind currents to optimize turbine placement, ensuring maximum energy capture. This analysis involves complex modeling and simulations to predict how wind flows over various landscapes, taking into account factors like vegetation, buildings, and elevation changes.In conclusion, the concept of field distribution is integral to many scientific and engineering disciplines. Whether in telecommunications, medicine, environmental science, or renewable energy, understanding how fields are distributed allows professionals to make informed decisions that enhance performance and safety. As technology advances and our understanding of complex systems deepens, the significance of field distribution will likely continue to grow, making it a critical area of study for future innovations and improvements in various fields. Recognizing the importance of field distribution will not only aid in technological advancements but also contribute to a more sustainable and healthier world.

在科学和工程领域，术语field distribution指的是某一特定场（如电场或磁场）在给定区域或体积中的分布方式。理解field distribution对于各种应用至关重要，包括电信、医学成像甚至环境研究。例如，在电信中，电磁场的分布会影响信号在距离上的传输质量。工程师必须分析field distribution以确保信号强且清晰，最大限度地减少来自障碍物或其他噪声源的干扰。field distribution的概念不仅限于电信，它在医学领域也发挥着重要作用。在磁共振成像（MRI）等技术中，磁场的field distribution对产生高质量的人体图像至关重要。均匀的field distribution确保图像清晰准确，使医生能够有效地诊断疾病。field distribution中的任何不规则性都可能导致图像质量差，从而阻碍正确的诊断和治疗。此外，field distribution在环境科学中也有重要意义。例如，在研究大气中污染物扩散时，研究人员需要了解各种因素如何影响这些污染物的field distribution。风向、温度梯度和地形都会影响污染物在空气中的分布。通过分析field distribution，科学家可以预测哪些区域可能面临更高的污染暴露风险，从而制定更好的公共卫生干预措施和政策。为了进一步说明field distribution的重要性，可以考虑可再生能源技术，特别是风力涡轮机的例子。风能发电的效率在很大程度上取决于不同地形上风的field distribution。工程师必须仔细评估风流的field distribution以优化涡轮机的布局，确保最大限度地捕获能量。此分析涉及复杂的建模和模拟，以预测风在各种地形上的流动，考虑植被、建筑物和海拔变化等因素。总之，field distribution的概念在许多科学和工程学科中都是不可或缺的。无论是在电信、医学、环境科学还是可再生能源领域，理解场的分布使专业人士能够做出明智的决策，提升性能和安全性。随着技术的进步和我们对复杂系统理解的加深，field distribution的重要性可能会继续增长，使其成为未来各种领域创新和改进的关键研究领域。认识到field distribution的重要性不仅有助于技术进步，还有助于创造一个更加可持续和健康的世界。