crystal form

简明释义

晶体形式

英英释义

例句

1.The crystal form of ice is essential for understanding its behavior in nature.

冰的晶体形态对于理解其在自然界中的行为至关重要。

2.In jewelry making, the crystal form of a gemstone can significantly affect its value.

在珠宝制作中，宝石的晶体形态可以显著影响其价值。

3.The crystal form of salt can be observed under a microscope.

盐的晶体形态可以在显微镜下观察到。

4.Different temperatures can change the crystal form of certain materials.

不同的温度可以改变某些材料的晶体形态。

5.The scientist observed the unique properties of the mineral in its crystal form.

科学家观察到该矿物在其晶体形态下的独特性质。

作文

The beauty of nature is often reflected in its various elements, and one of the most fascinating aspects is the formation of minerals. Among these minerals, the concept of crystal form (晶体形态) stands out as a captivating subject of study. A crystal form (晶体形态) refers to the external shape that a crystal takes as it grows. This shape is determined by the internal arrangement of atoms within the crystal lattice, which follows specific geometric patterns. Understanding crystal form (晶体形态) is crucial not only for mineralogy but also for various applications in fields such as chemistry, physics, and even art.Crystals can be found in many different environments, from volcanic eruptions to sedimentary deposits, and their crystal form (晶体形态) can vary widely. For instance, salt crystals typically exhibit a cubic crystal form (晶体形态), while quartz may appear in a hexagonal shape. The diversity in crystal form (晶体形态) is a result of the different conditions under which the crystals are formed, including temperature, pressure, and the chemical composition of the environment.In the realm of chemistry, understanding crystal form (晶体形态) is essential for predicting the behavior of substances. For example, the solubility of a compound can be influenced by its crystal form (晶体形态). Different crystal forms (晶体形态) of the same substance may dissolve at different rates, impacting reactions in both laboratory settings and natural processes. This is particularly important in pharmaceuticals, where the effectiveness of a drug can depend on its crystal form (晶体形态).Moreover, the study of crystal form (晶体形态) is not limited to scientific inquiry; it also extends into the world of art and aesthetics. Many artists and designers draw inspiration from the intricate shapes and patterns found in crystals. The unique crystal forms (晶体形态) can serve as motifs in jewelry design, architecture, and even fashion. By incorporating elements of crystal form (晶体形态) into their work, artists can create pieces that resonate with the natural beauty of the world around us.Furthermore, advancements in technology have allowed researchers to manipulate crystal form (晶体形态) for various applications. In materials science, engineers are exploring ways to create synthetic crystals with desired properties by controlling their crystal form (晶体形态). This can lead to the development of stronger, lighter materials for use in everything from electronics to aerospace engineering.In conclusion, the concept of crystal form (晶体形态) encompasses a wide range of disciplines and applications. Its significance stretches from the natural sciences to the arts, illustrating the interconnectedness of our understanding of the world. Whether one is studying the growth of minerals or designing a piece of jewelry, the allure of crystal form (晶体形态) remains an enduring source of inspiration and inquiry. As we continue to explore the complexities of crystals, we uncover not only the beauty of their shapes but also the profound implications they have in our lives and industries.

大自然的美往往反映在其各种元素中，其中最迷人的方面之一就是矿物的形成。在这些矿物中，晶体形态这一概念成为了一个引人入胜的研究主题。晶体形态指的是晶体生长时所呈现的外部形状。这种形状由晶体格子内部原子的排列决定，遵循特定的几何图案。理解晶体形态不仅对矿物学至关重要，也对化学、物理乃至艺术等多个领域的应用至关重要。晶体可以在许多不同的环境中找到，从火山喷发到沉积物堆积，其晶体形态可能会有很大差异。例如，盐晶体通常呈现立方形的晶体形态，而石英则可能呈现六角形的形状。晶体形态的多样性是晶体形成时不同条件（包括温度、压力和环境的化学成分）的结果。在化学领域，理解晶体形态对于预测物质的行为至关重要。例如，化合物的溶解度可能受到其晶体形态的影响。同一物质的不同晶体形态可能以不同的速度溶解，从而影响实验室环境和自然过程中的反应。这在制药行业尤为重要，因为药物的有效性可能依赖于其晶体形态。此外，晶体形态的研究不仅限于科学探究；它也延伸到艺术和美学的世界。许多艺术家和设计师从晶体的复杂形状和图案中汲取灵感。独特的晶体形态可以作为珠宝设计、建筑甚至时尚中的主题。通过将晶体形态的元素融入他们的作品中，艺术家可以创作出与周围自然之美产生共鸣的作品。此外，技术的进步使研究人员能够操控晶体形态以用于各种应用。在材料科学中，工程师们正在探索通过控制其晶体形态来创造具有所需属性的合成晶体的方法。这可以导致开发出更强、更轻的材料，用于电子产品到航空航天工程的各个领域。总之，晶体形态的概念涵盖了广泛的学科和应用。它的重要性从自然科学延伸到艺术，体现了我们对世界理解的相互联系。无论是在研究矿物的生长还是设计一件珠宝，晶体形态的魅力始终是一种持久的灵感和探究源泉。随着我们继续探索晶体的复杂性，我们不仅揭示了它们形状的美丽，还揭示了它们在我们的生活和产业中所具有的深远意义。