mcroscopic examination

简明释义

显微镜检查

英英释义

例句

1.The forensic team performed a microscopic examination of the fibers found at the crime scene.

法医团队对犯罪现场发现的纤维进行了显微镜检查。

2.The pathologist conducted a microscopic examination of the tissue sample to identify any abnormalities.

病理学家对组织样本进行了显微镜检查以识别任何异常。

3.During the microscopic examination, we discovered several types of bacteria in the water sample.

在显微镜检查中，我们发现水样中有几种细菌。

4.In the lab, the scientist used a high-powered microscope for the microscopic examination of the cells.

在实验室里，科学家使用高倍显微镜对细胞进行了显微镜检查。

5.A thorough microscopic examination is essential for diagnosing certain skin conditions.

彻底的显微镜检查对于诊断某些皮肤病是必不可少的。

作文

The world around us is filled with intricate details that often go unnoticed by the naked eye. To truly appreciate these details, scientists and researchers employ various methods of analysis. One such method is microscopic examination, which allows for a deeper understanding of materials, organisms, and structures at a scale that is otherwise invisible. Through this process, we can uncover the secrets hidden within the minutiae of life and matter.In the field of biology, microscopic examination is crucial for studying cells and microorganisms. For instance, when investigating a sample of pond water, a researcher may use a microscope to observe single-celled organisms like amoebas and paramecia. These tiny creatures are vital to the ecosystem, playing roles in nutrient cycling and serving as food for larger organisms. By conducting a microscopic examination of these organisms, scientists can learn about their behavior, reproduction, and interactions with their environment.Similarly, in the realm of medicine, microscopic examination plays a pivotal role in diagnosing diseases. Pathologists often analyze tissue samples under a microscope to identify abnormal cells that may indicate cancer or other health issues. The ability to detect changes at a cellular level can lead to early diagnosis and treatment, significantly improving patient outcomes. This highlights the importance of microscopic examination in the medical field, where precision and accuracy are paramount.Moreover, microscopic examination is not limited to biological studies. In materials science, researchers examine the structure of materials such as metals, polymers, and ceramics at a microscopic level to understand their properties and behaviors. For example, the strength and durability of a metal can be assessed through a microscopic examination of its grain structure. By analyzing these characteristics, engineers can develop stronger, more resilient materials for use in construction, aerospace, and other industries.The applications of microscopic examination extend to environmental science as well. Scientists study soil samples under a microscope to assess the health of ecosystems. By examining the microbial life present in the soil, researchers can determine its fertility and ability to support plant growth. This information is invaluable for agriculture and conservation efforts, as it helps inform sustainable practices that protect our natural resources.In conclusion, the practice of microscopic examination is an essential tool across various scientific disciplines. It enables us to explore the complexities of life and materials in ways that are not possible through simple observation. Whether in biology, medicine, materials science, or environmental studies, microscopic examination provides critical insights that drive innovation and enhance our understanding of the world. As technology continues to advance, the capabilities of microscopic examination will only expand, offering even greater opportunities for discovery and exploration. The significance of this method cannot be overstated, as it opens doors to new knowledge and possibilities that shape our future.

我们周围的世界充满了复杂的细节，这些细节常常被肉眼忽视。为了真正欣赏这些细节，科学家和研究人员采用各种分析方法。其中一种方法是显微镜检验，它允许我们在一个肉眼无法看到的尺度上更深入地理解材料、生命体和结构。通过这个过程，我们可以揭示生活和物质微观世界中的秘密。在生物学领域，显微镜检验对于研究细胞和微生物至关重要。例如，当研究者调查一份池塘水样时，他们可能会使用显微镜观察单细胞生物，如变形虫和草履虫。这些微小生物对生态系统至关重要，它们在养分循环中发挥作用，并为较大的生物提供食物。通过对这些生物进行显微镜检验，科学家可以了解它们的行为、繁殖和与环境的相互作用。同样，在医学领域，显微镜检验在疾病诊断中扮演着关键角色。病理学家经常在显微镜下分析组织样本，以识别可能表明癌症或其他健康问题的异常细胞。在细胞层面检测变化的能力可以导致早期诊断和治疗，从而显著改善患者的预后。这突显了显微镜检验在医疗领域的重要性，在这里，精确和准确是至关重要的。此外，显微镜检验不仅限于生物研究。在材料科学中，研究人员在微观层面上检查金属、聚合物和陶瓷等材料的结构，以了解它们的特性和行为。例如，通过对金属的晶粒结构进行显微镜检验，可以评估其强度和耐用性。通过分析这些特性，工程师可以开发出更强、更耐用的材料，用于建筑、航空航天和其他行业。显微镜检验的应用还扩展到环境科学。科学家在显微镜下研究土壤样本，以评估生态系统的健康。通过检查土壤中存在的微生物，研究人员可以确定其肥力和支持植物生长的能力。这些信息对农业和保护工作至关重要，因为它有助于指导保护我们的自然资源的可持续实践。总之，显微镜检验的实践是各个科学学科中的一个重要工具。它使我们能够以简单观察无法实现的方式探索生命和材料的复杂性。无论是在生物学、医学、材料科学还是环境研究中，显微镜检验提供了推动创新和增强我们对世界理解的关键见解。随着技术的不断进步，显微镜检验的能力只会扩大，为发现和探索提供更大的机会。这种方法的重要性不容低估，因为它为塑造我们未来的新知识和可能性开辟了大门。