crystal growing

简明释义

晶体生长

英英释义

例句

1.The science class conducted an experiment on crystal growing 晶体生长 to observe how different conditions affect the size of crystals.

科学课进行了一项关于晶体生长 crystal growing的实验，以观察不同条件如何影响晶体的大小。

2.The art exhibit featured sculptures made through crystal growing 晶体生长 processes, showcasing nature's beauty.

艺术展览展示了通过晶体生长 crystal growing过程制作的雕塑，展示了自然的美。

3.In her free time, she enjoys crystal growing 晶体生长 as a hobby, creating beautiful structures from various materials.

在空闲时间，她喜欢把晶体生长 crystal growing作为一种爱好，利用各种材料创造美丽的结构。

4.He read a book about crystal growing 晶体生长 and decided to try it at home using sugar.

他读了一本关于晶体生长 crystal growing的书，并决定在家用糖尝试一下。

5.The laboratory focuses on crystal growing 晶体生长 techniques to develop new pharmaceuticals.

实验室专注于晶体生长 crystal growing技术，以开发新药物。

作文

The process of crystal growing is a fascinating phenomenon that occurs in nature and can also be replicated in laboratories. It involves the formation of solid crystals from a solution, gas, or molten material. The study of crystal growing has significant implications in various fields such as chemistry, geology, and materials science. Understanding how crystals form can lead to advancements in technology, medicine, and even art.In nature, crystal growing can be observed in many forms. For instance, snowflakes are beautiful examples of natural crystals, each uniquely shaped by the conditions of the atmosphere as they fall to the ground. Similarly, minerals like quartz and diamonds form through geological processes over thousands of years. These natural crystals not only captivate the eye but also serve practical purposes in our daily lives, from jewelry to industrial applications.In a laboratory setting, scientists often conduct experiments to explore the mechanics of crystal growing. By creating controlled environments, they can manipulate variables such as temperature, concentration, and pressure to observe how these factors influence crystal formation. This research is crucial for developing new materials with specific properties, such as superconductors or pharmaceuticals. For example, the ability to grow large, pure crystals of certain compounds can enhance the effectiveness of drugs, making them more potent and reducing side effects.Moreover, crystal growing is not limited to scientific endeavors; it has also found its way into the world of art. Artists have begun to incorporate crystals into their work, using the unique shapes and colors of crystals to create stunning visual pieces. Some even use the process of crystal growing as a medium for their artistic expression, allowing nature to dictate the final outcome of their creations. This intersection of science and art highlights the beauty of crystal growing and its potential to inspire creativity.In education, crystal growing experiments are popular among students. These hands-on activities allow learners to witness the growth of crystals firsthand, providing a tangible connection to concepts in chemistry and physics. Students can experiment with different solutions and conditions, fostering a sense of curiosity and discovery. Such experiences not only enhance understanding but also encourage critical thinking and problem-solving skills.In conclusion, crystal growing is a multifaceted process that spans across various disciplines. Its significance in nature, science, art, and education cannot be overstated. As we continue to explore the intricacies of crystal growing, we unlock new possibilities that can lead to innovative solutions and a deeper appreciation for the natural world. Whether through scientific research or artistic endeavors, the allure of crystals remains strong, captivating our imagination and inspiring future generations to delve into the wonders of crystallography.

“晶体生长”的过程是一个迷人的现象，既可以在自然界中观察到，也可以在实验室中复制。它涉及从溶液、气体或熔融材料中形成固体晶体。“晶体生长”的研究在化学、地质学和材料科学等多个领域具有重要意义。理解晶体的形成可以推动技术、医学甚至艺术的进步。在自然界中，“晶体生长”可以以多种形式观察到。例如，雪花是自然晶体的美丽例子，每一片雪花都因其在降落过程中所处的气候条件而独特地形成。同样，像石英和钻石这样的矿物也是经过数千年的地质过程而形成的。这些自然晶体不仅吸引眼球，而且在我们的日常生活中也有实际用途，从珠宝到工业应用。在实验室环境中，科学家们常常进行实验，以探索“晶体生长”的机制。通过创造受控环境，他们可以操纵温度、浓度和压力等变量，以观察这些因素如何影响晶体的形成。这项研究对于开发具有特定属性的新材料至关重要，例如超导体或药品。例如，能够生长出大型、纯净的某些化合物的晶体，可以增强药物的有效性，使其更强效并减少副作用。此外，“晶体生长”不仅限于科学事业；它也进入了艺术世界。艺术家们开始将晶体融入他们的作品中，利用晶体独特的形状和颜色来创造令人惊叹的视觉作品。有些甚至将“晶体生长”的过程作为他们艺术表达的一种媒介，让自然决定他们创作的最终结果。这种科学与艺术的交汇点突显了“晶体生长”的美丽及其激发创造力的潜力。在教育中，“晶体生长”实验在学生中非常受欢迎。这些动手活动使学习者能够亲眼目睹晶体的生长，为化学和物理概念提供了切实的联系。学生们可以尝试不同的溶液和条件，培养好奇心和发现感。这种经历不仅增强了理解，还鼓励批判性思维和解决问题的能力。总之，“晶体生长”是一个跨越多个学科的多面过程。它在自然、科学、艺术和教育中的重要性不容小觑。随着我们继续探索“晶体生长”的复杂性，我们解锁了新的可能性，这可能导致创新解决方案以及对自然世界更深刻的欣赏。无论是通过科学研究还是艺术努力，晶体的魅力依然强烈，吸引着我们的想象力，并激励未来几代人深入探讨结晶学的奇观。