microscopic examination

简明释义

显微镜检查

英英释义

例句

1.The doctor recommended a microscopic examination 显微镜检查 of the tissue sample to determine the presence of any abnormalities.

医生建议对组织样本进行显微镜检查 microscopic examination 以确定是否存在任何异常。

2.A thorough microscopic examination 显微镜检查 is crucial for diagnosing certain diseases.

彻底的显微镜检查 microscopic examination 对于某些疾病的诊断至关重要。

3.During the microscopic examination 显微镜检查, we found several bacteria that were not visible to the naked eye.

在显微镜检查 microscopic examination 中，我们发现了几种肉眼看不见的细菌。

4.The laboratory technician performed a microscopic examination 显微镜检查 on the blood sample to check for parasites.

实验室技术员对血液样本进行了显微镜检查 microscopic examination 以检查寄生虫。

5.Results from the microscopic examination 显微镜检查 indicated the presence of cancer cells.

来自显微镜检查 microscopic examination 的结果表明存在癌细胞。

作文

The world around us is filled with wonders that often go unnoticed. One of the most fascinating aspects of our universe lies in the tiny structures that make up all living organisms. To truly appreciate the complexity of life, scientists often employ a technique known as microscopic examination. This method allows researchers to observe and analyze specimens at a scale that is invisible to the naked eye. By utilizing powerful microscopes, they can delve into the intricate details of cells, tissues, and microorganisms, revealing the hidden beauty of life forms.In the field of biology, microscopic examination is essential for understanding how organisms function at a cellular level. For instance, when studying plant cells, scientists can identify various organelles such as chloroplasts, which are responsible for photosynthesis. The ability to see these structures helps researchers understand how plants convert sunlight into energy, a process that is vital for life on Earth.Moreover, microscopic examination plays a crucial role in medical diagnostics. Pathologists often rely on this technique to identify diseases by examining tissue samples under a microscope. For example, cancerous cells exhibit distinct characteristics that can be detected through careful observation. By analyzing these samples, doctors can make informed decisions about treatment options, ultimately improving patient outcomes.In microbiology, microscopic examination allows scientists to study bacteria, viruses, and fungi. Understanding the morphology and behavior of these microorganisms is critical for developing antibiotics and vaccines. For instance, the discovery of penicillin was made possible through the microscopic examination of mold, leading to a breakthrough in medicine that has saved countless lives.Furthermore, the application of microscopic examination extends beyond biology and medicine. In materials science, researchers use this technique to analyze the properties of materials at a microscopic level. By examining the structure of metals, polymers, and ceramics, scientists can develop stronger and more durable materials for various applications, from construction to electronics.In conclusion, microscopic examination is a powerful tool that unlocks the secrets of the microscopic world. Its applications span across various fields, including biology, medicine, and materials science. Through this technique, we gain invaluable insights into the building blocks of life and the materials that surround us. As technology advances and microscopy techniques improve, we can expect even greater discoveries that will continue to shape our understanding of the universe. The ability to observe and analyze the minute details of our world not only enhances scientific knowledge but also ignites curiosity and wonder about the complex systems that sustain life. Therefore, embracing the practice of microscopic examination is essential for anyone looking to explore the depths of science and its impact on our lives.

我们周围的世界充满了常常被忽视的奇迹。我们宇宙中最迷人的方面之一在于构成所有生物体的微小结构。为了真正欣赏生命的复杂性，科学家们经常采用一种称为显微镜检查的技术。这种方法使研究人员能够在肉眼看不见的尺度上观察和分析样本。通过利用强大的显微镜，他们可以深入了解细胞、组织和微生物的复杂细节，揭示生命形式的隐藏之美。在生物学领域，显微镜检查对于理解生物体如何在细胞层面上运作至关重要。例如，在研究植物细胞时，科学家可以识别出各种细胞器，如负责光合作用的叶绿体。能够看到这些结构有助于研究人员理解植物如何将阳光转化为能量，这一过程对地球上的生命至关重要。此外，显微镜检查在医学诊断中发挥着至关重要的作用。病理学家通常依赖这种技术通过显微镜检查组织样本来识别疾病。例如，癌细胞表现出独特的特征，可以通过仔细观察来检测到。通过分析这些样本，医生可以就治疗方案做出明智的决策，从而最终改善患者的结果。在微生物学中，显微镜检查使科学家能够研究细菌、病毒和真菌。理解这些微生物的形态和行为对于开发抗生素和疫苗至关重要。例如，青霉素的发现就是通过显微镜检查霉菌而实现的，这导致了医学上的突破，拯救了无数生命。此外，显微镜检查的应用超越了生物学和医学。在材料科学中，研究人员使用这种技术分析材料在微观层面的性质。通过检查金属、高分子和陶瓷的结构，科学家可以开发出更强大、更耐用的材料，用于各种应用，从建筑到电子产品。总之，显微镜检查是一种强大的工具，可以解锁微观世界的秘密。它的应用跨越多个领域，包括生物学、医学和材料科学。通过这种技术，我们获得了对生命的基本组成部分和我们周围材料的宝贵洞察。随着技术的进步和显微镜技术的改进，我们可以期待更多的发现，这将继续塑造我们对宇宙的理解。观察和分析我们世界微小细节的能力不仅增强了科学知识，还激发了对维持生命的复杂系统的好奇心和敬畏。因此，拥抱显微镜检查的实践对于任何希望探索科学深度及其对我们生活影响的人来说都是至关重要的。