microscopes
简明释义
英[ˈmaɪkrəʊskəʊpz]美[ˈmaɪkrəˌskoʊpz]
n. [光]显微镜(microscope 的复数)
英英释义
A microscope is an optical instrument used to magnify small objects or details that are not visible to the naked eye. | 显微镜是一种光学仪器,用于放大肉眼无法看到的小物体或细节。 |
单词用法
电子显微镜 | |
扫描电子显微镜 |
同义词
反义词
宏观镜 | 我们可以用肉眼看到星星。 | ||
肉眼 | 宏观镜用于观察大型结构。 |
例句
1.Electron microscopy grants researchers and clinicians access to a universe that is too small to be detected using light-based microscopes.
电子显微镜让研究者和临床医生得以进入一个光学显微镜无法窥见的小宇宙。
2.When it's done in the lab, Hayes USES video microscopes to examine people's tongues.
在实验室做这个实验时,海斯用视频显微镜来观察人们的舌头。
3.This represents a big advance in the way microscopes are used.
这代表我们在使用显微镜的方式上取得了巨大的进步。
4.The most powerful electron microscopes can resolve molecules and even individual atoms.
分辨率最高的电子显微镜可以分辨分子甚至单独的原子。
5.Visitors must peek into microscopes to examine these remarkable iridescent flowers and birds (pictured at top).
参观者必须从显微镜窥视,检查这些奇异的彩虹色的花和鸟(上文照片摄)。
6.After hundreds of years, the most common, basic microscopes still operate by means of the same old hardware: the lens.
几百年来最普通最常见的显微镜使用的仍然是最古老的硬件:透镜。
7.They buy used lab equipment online, convert webcams into US$10 microscopes and incubate tubes of genetically engineered Escherichia coli in their armpits.
他们在线购买二手实验室设备,把网络摄像头转换成10美元的显微镜和在他们的腋下培养遗传改良的Escherichiacoli 。
8.The museum displays ancient microscopes (显微镜) that were used in the 19th century.
博物馆展示了19世纪使用的古老显微镜(显微镜)。
9.Students in biology class use microscopes (显微镜) to examine the structure of leaves.
生物课的学生使用显微镜(显微镜)检查叶子的结构。
10.The laboratory is equipped with advanced microscopes (显微镜) for detailed cell analysis.
实验室配备了先进的显微镜(显微镜)用于详细的细胞分析。
11.Research on bacteria often requires powerful microscopes (显微镜).
对细菌的研究通常需要强大的显微镜(显微镜)。
12.In medical labs, microscopes (显微镜) are essential for diagnosing diseases.
在医学实验室中,显微镜(显微镜)对于疾病诊断至关重要。
作文
The invention of the microscope (显微镜) has revolutionized the field of science, allowing us to explore the unseen world that exists beyond the naked eye. From the early days of simple lenses to the sophisticated electron microscopes (显微镜) we have today, this tool has played a crucial role in numerous scientific discoveries. One cannot overstate the importance of microscopes (显微镜) in various fields such as biology, medicine, and materials science.In biology, microscopes (显微镜) enable scientists to observe cells and microorganisms, which are essential for understanding life at its most fundamental level. For instance, the discovery of penicillin by Alexander Fleming was made possible through the use of a microscope (显微镜), allowing him to see the bacteria being inhibited by mold. This breakthrough not only changed the course of medicine but also opened the door to the development of antibiotics, saving countless lives.Moreover, in the medical field, microscopes (显微镜) are indispensable for diagnosing diseases. Pathologists rely on microscopes (显微镜) to examine tissue samples and identify abnormalities that could indicate cancer or other health issues. The ability to analyze cells at such a detailed level has transformed how we approach disease diagnosis and treatment, leading to more effective therapies and improved patient outcomes.In materials science, microscopes (显微镜) help researchers understand the properties of materials at the microscopic level. By examining the structure of metals, polymers, and ceramics, scientists can develop stronger and more efficient materials for various applications, from construction to electronics. The insights gained from microscopes (显微镜) have led to innovations that enhance our daily lives, such as more durable smartphones and lightweight yet strong materials for aerospace engineering.The advancement of microscopes (显微镜) continues to push the boundaries of what we can observe and understand. Modern techniques like fluorescence microscopy (荧光显微镜) allow researchers to label specific proteins within cells, illuminating processes that were previously hidden. This has profound implications for cellular biology, enabling scientists to track the movement of molecules within living organisms in real-time.However, the significance of microscopes (显微镜) extends beyond just scientific research. They also play an educational role, helping students grasp complex biological concepts and fostering a sense of curiosity about the natural world. School laboratories equipped with microscopes (显微镜) inspire young minds to explore the intricacies of life, potentially leading the next generation of scientists.In conclusion, microscopes (显微镜) are more than just tools; they are gateways to understanding the complexities of our world. Their impact spans across various disciplines, enhancing our knowledge and improving our quality of life. As technology continues to evolve, we can only anticipate even greater discoveries made possible by the humble microscope (显微镜). It is a testament to human ingenuity and our relentless pursuit of knowledge.
显微镜的发明彻底改变了科学领域,使我们能够探索肉眼看不见的世界。从早期的简单透镜到今天复杂的电子显微镜,这一工具在众多科学发现中发挥了至关重要的作用。人们无法过分强调显微镜在生物学、医学和材料科学等各个领域的重要性。在生物学中,显微镜使科学家能够观察细胞和微生物,这对于理解生命的基本层面至关重要。例如,亚历山大·弗莱明通过使用显微镜发现青霉素,这使他能看到被霉菌抑制的细菌。这一突破不仅改变了医学的进程,也为抗生素的发展打开了大门,拯救了无数生命。此外,在医学领域,显微镜是诊断疾病不可或缺的工具。病理学家依赖显微镜检查组织样本,识别可能表明癌症或其他健康问题的异常情况。在如此详细的水平上分析细胞的能力改变了我们对疾病诊断和治疗的方式,导致更有效的治疗和改善的患者结果。在材料科学中,显微镜帮助研究人员理解材料在微观层面的特性。通过检查金属、聚合物和陶瓷的结构,科学家可以开发出更强大、更高效的材料,应用于各种领域,从建筑到电子产品。显微镜所获得的见解促成了增强我们日常生活的创新,例如更耐用的智能手机和轻便但坚固的航空航天工程材料。显微镜的进步继续推动我们观察和理解的边界。现代技术如荧光显微镜使研究人员能够标记细胞内的特定蛋白质,照亮之前隐藏的过程。这对细胞生物学具有深远的影响,使科学家能够实时跟踪活生物体内分子的运动。然而,显微镜的重要性不仅限于科学研究。它们还在教育中发挥着作用,帮助学生掌握复杂的生物概念,并激发他们对自然世界的好奇心。配备显微镜的学校实验室激励年轻人探索生命的复杂性,可能会导致下一代科学家的诞生。总之,显微镜不仅仅是工具;它们是理解我们世界复杂性的门户。它们的影响跨越多个学科,增强了我们的知识并改善了我们的生活质量。随着技术的不断发展,我们只能期待更多伟大的发现将通过这台谦逊的显微镜实现。这是人类聪明才智和我们对知识不懈追求的证明。