resolving power
简明释义
分辨能力
英英释义
例句
1.The resolving power of this telescope is sufficient to observe distant galaxies.
这台望远镜的分辨率足以观察遥远的星系。
2.In photography, the camera's resolving power determines how much detail can be captured in an image.
在摄影中,相机的分辨率决定了图像中可以捕捉到多少细节。
3.A higher resolving power means better image quality in digital displays.
更高的分辨率意味着数字显示的图像质量更好。
4.The microscope's resolving power allows us to see individual cells clearly.
显微镜的分辨率让我们能够清晰地看到单个细胞。
5.The resolving power of radar systems is critical for detecting small objects.
雷达系统的分辨率对于探测小物体至关重要。
作文
In the realm of science and technology, the term resolving power refers to the ability of an imaging system to distinguish between two closely spaced objects. This concept is crucial in various fields, including microscopy, photography, and astronomy. The higher the resolving power, the clearer and more detailed the image will be. For instance, in microscopy, a microscope with a high resolving power can reveal fine details of a specimen that would otherwise be indistinguishable to the naked eye. This capability allows scientists to study cellular structures, microorganisms, and even the intricate details of tissues, leading to significant advancements in biology and medicine.Similarly, in photography, the resolving power of a camera determines the clarity of the images captured. A camera with higher resolving power can produce photographs with more detail, allowing for larger prints without losing quality. This is particularly important in professional photography, where image quality is paramount. Photographers often choose their equipment based on the resolving power it offers, as it directly impacts the final output of their work.In astronomy, the resolving power of telescopes is vital for observing distant celestial bodies. Telescopes with high resolving power can separate closely located stars or discern the finer details of planets and galaxies. This allows astronomers to gather more information about the universe, contributing to our understanding of cosmic phenomena. For example, the Hubble Space Telescope has a remarkable resolving power that has enabled scientists to make groundbreaking discoveries about the structure and evolution of the universe.The importance of resolving power extends beyond scientific applications; it also plays a significant role in everyday life. In the digital age, the resolving power of screens and displays affects how we consume media. Higher resolving power in televisions and monitors results in sharper images and a more enjoyable viewing experience. As technology continues to advance, consumers increasingly seek devices with enhanced resolving power, reflecting its significance in our daily interactions with visual content.Moreover, the concept of resolving power can be metaphorically applied to other areas, such as problem-solving and decision-making. Just as an imaging system with high resolving power can clarify complex images, individuals with strong analytical skills can dissect complicated problems and find effective solutions. In this sense, enhancing one’s own resolving power in thinking and reasoning can lead to better outcomes in both personal and professional contexts.In conclusion, the term resolving power encompasses a wide range of applications, from scientific research to everyday technology. Its significance lies in the ability to discern details and make informed decisions based on clear observations. As we continue to explore and innovate, understanding and improving resolving power will remain essential in our pursuit of knowledge and excellence. Whether through advanced instruments or sharpened analytical skills, the quest for greater resolving power will undoubtedly shape the future of various fields.
在科学和技术领域,术语分辨率指的是成像系统区分两个紧密相邻的物体的能力。这个概念在显微镜、摄影和天文学等多个领域至关重要。分辨率越高,图像就越清晰、细节越丰富。例如,在显微镜学中,具有高分辨率的显微镜可以揭示样本的细微细节,这些细节肉眼无法分辨。这种能力使科学家能够研究细胞结构、微生物甚至组织的复杂细节,从而推动生物学和医学的重大进展。同样,在摄影中,照相机的分辨率决定了捕获图像的清晰度。具有更高分辨率的相机可以拍摄出更多细节的照片,使得在不失去质量的情况下进行更大尺寸的打印成为可能。这在专业摄影中尤其重要,因为图像质量至关重要。摄影师通常根据设备提供的分辨率来选择设备,因为这直接影响到他们作品的最终输出。在天文学中,望远镜的分辨率对于观察遥远的天体至关重要。具有高分辨率的望远镜可以分辨紧密相邻的恒星或辨别行星和星系的更细微细节。这使天文学家能够收集更多关于宇宙的信息,促进我们对宇宙现象的理解。例如,哈勃太空望远镜具有卓越的分辨率,使科学家能够对宇宙的结构和演化做出突破性的发现。分辨率的重要性超出了科学应用,它在日常生活中也发挥着重要作用。在数字时代,屏幕和显示器的分辨率影响着我们消费媒体的方式。更高的分辨率在电视和显示器中会导致更清晰的图像和更愉悦的观看体验。随着技术的不断进步,消费者越来越寻求具有增强分辨率的设备,反映了其在我们日常与视觉内容互动中的重要性。此外,分辨率的概念还可以隐喻性地应用于其他领域,如问题解决和决策。正如具有高分辨率的成像系统可以澄清复杂的图像,具备强大分析技能的个人能够剖析复杂问题并找到有效解决方案。从这个意义上说,提高个人在思考和推理方面的分辨率可以在个人和职业背景中带来更好的结果。总之,术语分辨率涵盖了广泛的应用,从科学研究到日常技术。其重要性在于能够辨别细节并基于清晰的观察做出明智的决策。随着我们继续探索和创新,理解和提高分辨率将始终是我们追求知识和卓越的重要组成部分。无论是通过先进的仪器还是锐化的分析技能,对更高分辨率的追求无疑将塑造各个领域的未来。
