hemimorphic crystal

简明释义

异极晶体

英英释义

例句

1.The mineral tourmaline often forms as a hemimorphic crystal 半晶型晶体, showcasing unique properties on each end.

矿物电气石常常形成为一种hemimorphic crystal 半晶型晶体，展现出每个端部独特的特性。

2.In my collection, I have a beautiful hemimorphic crystal 半晶型晶体 that exhibits striking color variations.

在我的收藏中，我有一个美丽的hemimorphic crystal 半晶型晶体，展现出鲜明的颜色变化。

3.Geologists study hemimorphic crystals 半晶型晶体 to understand the conditions under which these minerals formed.

地质学家研究hemimorphic crystals 半晶型晶体以了解这些矿物形成的条件。

4.During the workshop, we learned how to identify hemimorphic crystals 半晶型晶体 in different rock formations.

在研讨会上，我们学习了如何在不同的岩石构造中识别hemimorphic crystals 半晶型晶体。

5.The hemimorphic crystal 半晶型晶体 structure can significantly affect the optical properties of the mineral.

hemimorphic crystal 半晶型晶体结构可以显著影响矿物的光学特性。

作文

In the field of mineralogy, the term hemimorphic crystal refers to a specific type of crystal that exhibits different morphological features at each end of its crystal axis. This unique characteristic sets hemimorphic crystals apart from other types of crystals, which typically display symmetry at both ends. The word 'hemimorphic' itself is derived from Greek roots, where 'hemi' means half and 'morph' means form. Therefore, a hemimorphic crystal can be understood as a crystal that possesses two distinct forms or shapes on its opposing ends.One of the most fascinating aspects of hemimorphic crystals is their formation process. These crystals often develop in environments where specific conditions favor the growth of one end over the other. For example, they may form in hydrothermal veins, where mineral-rich hot water interacts with cooler surrounding rock. As the minerals precipitate out of the solution, they can create a crystal structure that is asymmetrical, resulting in the distinctive features of a hemimorphic crystal.Common examples of hemimorphic crystals include certain varieties of quartz and beryl. These minerals not only exhibit the hemimorphic property but also display beautiful colors and clarity, making them popular among collectors and gem enthusiasts. The unique properties of hemimorphic crystals are not just visually appealing; they also play a significant role in various industrial applications. For instance, some hemimorphic crystals are utilized in electronics and optics due to their piezoelectric and optical properties.The study of hemimorphic crystals extends beyond mere aesthetics and industrial use; it also provides insights into geological processes. By examining the characteristics of these crystals, scientists can infer information about the environmental conditions present during their formation. This includes factors such as temperature, pressure, and the chemical composition of the surrounding environment.Moreover, hemimorphic crystals can serve as indicators of mineral deposits. Their presence in a particular area may suggest the availability of certain minerals, guiding mining operations and exploration efforts. This aspect underscores the importance of understanding not only what hemimorphic crystals are but also how they fit into the larger picture of geology and resource management.In conclusion, hemimorphic crystals are a captivating subject within the realm of mineralogy. Their unique characteristics, formation processes, and implications for geology and industry make them worthy of study. Whether one is a professional geologist or simply an enthusiast of natural wonders, the beauty and complexity of hemimorphic crystals continue to inspire curiosity and admiration. As we delve deeper into the world of minerals, we uncover the stories that these remarkable structures tell about our planet's history and its ongoing evolution.

在矿物学领域，术语半形晶体指的是一种特定类型的晶体，其在晶体轴的两端展现出不同的形态特征。这一独特特性使得半形晶体与其他类型的晶体区分开来，后者通常在两端表现出对称性。‘半形’这个词本身源自希腊语，其中‘半’意为一半，而‘形’意为形态。因此，半形晶体可以理解为一种在相对两端具有两种不同形状或形式的晶体。半形晶体最引人注目的方面之一是它们的形成过程。这些晶体通常在特定环境下生长，其中某一端的生长条件优于另一端。例如，它们可能在热液脉中形成，矿物质丰富的热水与周围冷却的岩石相互作用。当矿物从溶液中沉淀出来时，它们可以形成不对称的晶体结构，从而导致半形晶体的独特特征。常见的半形晶体包括某些种类的石英和绿柱石。这些矿物不仅展示了半形特性，还展现出美丽的颜色和清澈度，使其在收藏家和宝石爱好者中非常受欢迎。半形晶体的独特性质不仅在视觉上吸引人；它们在各种工业应用中也发挥着重要作用。例如，一些半形晶体因其压电和光学特性而被用于电子和光学设备中。对半形晶体的研究超越了美学和工业用途；它还提供了对地质过程的深入了解。通过检查这些晶体的特征，科学家可以推断出它们形成时的环境条件，包括温度、压力和周围环境的化学成分等因素。此外，半形晶体可以作为矿物沉积的指示器。它们在特定区域的存在可能暗示某些矿物的可用性，从而指导采矿作业和勘探工作。这一方面强调了理解半形晶体不仅是什么，还要了解它们如何融入更大地质和资源管理图景的重要性。总之，半形晶体是矿物学领域一个引人入胜的主题。它们独特的特征、形成过程以及对地质和工业的影响，使其值得研究。无论是专业地质学家还是自然奇观的爱好者，半形晶体的美丽和复杂性继续激发着人们的好奇心和钦佩。当我们深入探索矿物的世界时，我们揭示了这些非凡结构所讲述的关于我们星球历史及其持续演变的故事。