inhomogeneity
简明释义
英[ˌɪnhoʊməˈdʒɛnəti]美[ˌɪnhoʊməˈdʒɛnəti]
n. 不均一,多相;不同类;不同质;不同族
英英释义
Inhomogeneity refers to the quality or state of being unevenly distributed or not uniform in composition or structure. | 不均匀性是指在组成或结构上分布不均或不一致的质量或状态。 |
单词用法
同义词
反义词
| 均匀性 | The homogeneity of the material made it ideal for construction. | 材料的均匀性使其非常适合用于建筑。 | |
| 一致性 | Uniformity in the data set is essential for accurate analysis. | 数据集的一致性对于准确分析至关重要。 |
例句
1.Inhomogeneity has many levels.
非均质性有很多等级。
2.The curves of apparent resistivity obtained from Magnetotelluric Sounding are greatly distorted by the lateral inhomogeneity of surficial structures.
大地电磁测深结果受表层构造横向不均匀性的影响,其视电阻率曲线会发生畸变。
3.The results show strong vertical and lateral inhomogeneity in deep crust velocity structure and tectonics.
结果表明,该区地壳深部速度结构与构造在纵向和横向上具有明显的不均一性。
4.At low confining pressures, the inhomogeneity of rock materials results in obvious strength-size effect.
低围压时,岩石试件内材料并未趋于均匀化,非均质性显著,强度尺寸效应明显;
5.It is shown that the nonlinearity and inhomogeneity of the medium, laser power and input beam parameter affect their propagation properties.
结果表明,介质的非线性性和非均匀性、激光功率及入射光束参数影响其传输特性。
6.The longitudinal surface cracks of continuous cast slab results from the thickness inhomogeneity of the initially solidified shell at the meniscus of mould.
连铸板坯表面纵裂起因于结晶器弯月面初生凝固坯壳厚度的不均匀性。
7.The study found a significant level of inhomogeneity in the soil composition, which affects crop yields.
研究发现土壤成分存在显著的不均匀性,这会影响作物产量。
8.In materials science, inhomogeneity can lead to unexpected failure points in structures.
在材料科学中,不均匀性可能导致结构中的意外失效点。
9.Researchers are investigating the inhomogeneity of the galaxy's dark matter distribution.
研究人员正在调查银河系暗物质分布的不均匀性。
10.The inhomogeneity of the magnetic field can complicate the results of the experiment.
磁场的不均匀性可能会使实验结果复杂化。
11.The inhomogeneity in temperature across the surface of the material affects its thermal properties.
材料表面的温度不均匀性影响其热性能。
作文
In the realm of science and engineering, the concept of inhomogeneity plays a crucial role in understanding various phenomena. Inhomogeneity refers to the lack of uniformity or consistency in a material or a system. This can manifest in many forms, such as variations in composition, density, or structure. For instance, when studying the properties of materials, scientists often encounter inhomogeneity that can significantly affect the behavior of the material under different conditions. One classic example is the study of composite materials, which are made from two or more constituent materials with different physical or chemical properties. The inhomogeneity in these materials can lead to unique mechanical properties that are not found in homogeneous materials. Engineers must carefully consider this inhomogeneity when designing structures to ensure they can withstand various stresses and strains.Moreover, inhomogeneity is not limited to physical materials; it is also prevalent in biological systems. For instance, the human body itself exhibits inhomogeneity at multiple levels, from cellular structures to organ systems. The varying densities and compositions of tissues can influence how diseases progress and how effective treatments may be. Understanding this inhomogeneity is vital for developing targeted therapies that account for the differences in tissue types.In the field of physics, inhomogeneity can affect wave propagation. For example, when sound waves travel through a medium with varying density, their speed and direction can change due to the inhomogeneity of the medium. This principle is essential in fields such as acoustics and seismology, where understanding how waves interact with different materials can provide insights into the Earth's structure.Additionally, in environmental science, inhomogeneity is a critical factor in studying ecosystems. Different regions within an ecosystem can have varying soil types, moisture levels, and vegetation, leading to inhomogeneity in species distribution and interactions. Conservation efforts must take this inhomogeneity into account to create effective management strategies that preserve biodiversity.In conclusion, the concept of inhomogeneity is fundamental across various disciplines, influencing how we understand and interact with the world around us. Whether in materials science, biology, physics, or environmental studies, recognizing and analyzing inhomogeneity allows researchers and practitioners to make informed decisions and develop innovative solutions to complex problems. As we continue to explore the intricacies of our universe, the significance of inhomogeneity will undoubtedly remain a key focus in advancing our knowledge and technologies.
在科学和工程领域,不均匀性的概念在理解各种现象中发挥着至关重要的作用。不均匀性是指材料或系统中缺乏统一性或一致性。这可以表现为成分、密度或结构的变化。例如,在研究材料的性质时,科学家们经常遇到的不均匀性可能会显著影响材料在不同条件下的行为。一个经典的例子是复合材料的研究,这些材料是由两种或多种具有不同物理或化学性质的组成材料制成的。这些材料中的不均匀性可能导致独特的机械性能,这在均匀材料中是无法找到的。工程师必须仔细考虑这种不均匀性,以确保设计的结构能够承受各种应力和变形。此外,不均匀性不仅限于物理材料;它在生物系统中也很普遍。例如,人类身体本身在多个层面上表现出不均匀性,从细胞结构到器官系统。组织的不同密度和成分可能会影响疾病的进展以及治疗的有效性。理解这种不均匀性对于开发针对不同组织类型的靶向疗法至关重要。在物理学领域,不均匀性可能会影响波的传播。例如,当声波通过一种密度变化的介质传播时,由于介质的不均匀性,它们的速度和方向可能会发生变化。这一原理在声学和地震学等领域中至关重要,了解波如何与不同材料相互作用可以提供有关地球结构的见解。此外,在环境科学中,不均匀性是研究生态系统的重要因素。生态系统内的不同区域可能具有不同的土壤类型、湿度水平和植被,导致物种分布和相互作用的不均匀性。保护工作必须考虑这种不均匀性,以制定有效的管理策略来保护生物多样性。总之,不均匀性的概念在各个学科中都是基础性的,影响着我们理解和与周围世界互动的方式。无论是在材料科学、生物学、物理学还是环境研究中,认识和分析不均匀性使研究人员和从业者能够做出明智的决策,并开发出应对复杂问题的创新解决方案。随着我们继续探索宇宙的复杂性,不均匀性的重要性无疑将继续成为推进我们知识和技术的关键焦点。
