crystal form

简明释义

晶形

英英释义

例句

1.The jewelry designer chose a crystal form that would reflect light beautifully.

珠宝设计师选择了一种能够美丽反射光线的晶体形态。

2.Different temperatures can affect the crystal form of the substance being studied.

不同的温度会影响所研究物质的晶体形态。

3.In geology, identifying the crystal form of a rock can help determine its composition.

在地质学中，识别岩石的晶体形态可以帮助确定其成分。

4.The scientist observed the mineral in its natural state and noted its unique crystal form.

科学家观察到矿物的自然状态，并注意到其独特的晶体形态。

5.The crystal form of salt can vary depending on how it was crystallized.

盐的晶体形态可能因结晶方式的不同而有所变化。

作文

The beauty of nature often lies in its intricate designs and formations. One of the most fascinating aspects of nature is the way certain minerals and substances can organize themselves into a specific structure known as crystal form. This term refers to the unique geometric shapes that crystals take on as they grow, which are determined by the arrangement of their atoms and molecules. Understanding crystal form is essential not only in the field of geology but also in chemistry, physics, and even art. Crystals can be found in a variety of forms, ranging from simple structures like cubes and hexagons to more complex configurations. The crystal form of a mineral can tell us a great deal about its properties and how it was formed. For example, table salt (sodium chloride) typically forms cubic crystals, while quartz can exhibit hexagonal shapes. These shapes are not random; they are a direct result of the internal arrangement of the atoms within the crystal lattice. In addition to their scientific significance, crystals have captivated human imagination for centuries. Many cultures have attributed mystical properties to certain crystals, believing they possess healing powers or can influence one’s mood and energy. The allure of crystal form extends beyond mere aesthetics; it encompasses a sense of wonder about the natural world and its hidden patterns. The study of crystal form is crucial in various industries. For instance, in pharmaceuticals, the crystallization process can significantly affect the efficacy and stability of drugs. A change in the crystal form of a medication can lead to variations in how the body absorbs it, potentially altering its effectiveness. Therefore, understanding and controlling the crystal form during drug development is vital for ensuring optimal therapeutic outcomes. Moreover, in the field of materials science, researchers are constantly exploring new ways to manipulate crystal form to create stronger, lighter, and more durable materials. The development of advanced materials often hinges on our ability to control the crystalline structure at a molecular level. For example, the aerospace industry relies on materials with specific crystal forms to ensure safety and performance in extreme conditions. In conclusion, the concept of crystal form transcends mere visual appeal; it is a fundamental aspect of science that influences various fields, from geology to medicine and materials science. As we continue to explore the intricacies of crystal form, we uncover not only the secrets of the natural world but also the potential for innovation and advancement in technology and health. The study of crystals serves as a reminder of the beauty and complexity of nature, encouraging us to appreciate the small wonders that surround us every day.

自然的美往往体现在其复杂的设计和形态中。自然中最迷人的方面之一是某些矿物和物质能够以特定结构组织自身，这种结构被称为晶体形态。这个术语指的是晶体在生长过程中所呈现出的独特几何形状，这些形状由其原子和分子的排列决定。理解晶体形态不仅对地质学至关重要，还对化学、物理学甚至艺术有着重要影响。 晶体可以呈现多种形式，从简单的立方体和六边形到更复杂的构型。矿物的晶体形态能告诉我们很多关于它的性质以及它是如何形成的。例如，食盐（氯化钠）通常形成立方晶体，而石英则可以表现出六角形状。这些形状并不是随机的；它们是晶体晶格内部原子排列的直接结果。 除了科学意义外，晶体几个世纪以来一直吸引着人类的想象力。许多文化赋予某些晶体神秘的属性，认为它们具有治愈力量或可以影响一个人的情绪和能量。晶体形态的魅力不仅仅在于视觉上的吸引力；它还包含了对自然世界及其隐藏模式的敬畏感。 对晶体形态的研究在各个行业中都是至关重要的。例如，在制药领域，结晶过程会显著影响药物的功效和稳定性。药物的晶体形态变化可能导致其在体内的吸收方式发生变化，从而可能改变其有效性。因此，在药物开发过程中理解和控制晶体形态对于确保最佳治疗效果至关重要。 此外，在材料科学领域，研究人员不断探索操纵晶体形态的新方法，以创造更强、更轻和更耐用的材料。先进材料的发展往往依赖于我们在分子层面上控制晶体结构的能力。例如，航空航天工业依赖于具有特定晶体形态的材料，以确保在极端条件下的安全性和性能。 总之，晶体形态的概念超越了单纯的视觉吸引力；它是科学的一个基本方面，影响着从地质学到医学和材料科学等多个领域。随着我们继续探索晶体形态的复杂性，我们不仅揭示了自然界的秘密，也发现了技术和健康创新的潜力。对晶体的研究提醒我们欣赏周围每天的小奇迹，体现了自然的美和复杂性。