resolving power

简明释义

分辨能力

英英释义

例句

1.The microscope's resolving power allows scientists to see details that are smaller than the wavelength of light.

显微镜的分辨率使科学家能够看到比光波长更小的细节。

2.The resolving power of radar systems determines how well they can distinguish between different objects.

雷达系统的分辨率决定了它们区分不同物体的能力。

3.The resolving power of the telescope is crucial for observing distant celestial bodies.

望远镜的分辨率对于观察遥远的天体至关重要。

4.A higher resolving power in medical imaging can lead to better diagnosis.

医学成像中的更高分辨率可以导致更好的诊断。

5.In photography, a camera with high resolving power can capture sharper images.

在摄影中，具有高分辨率的相机可以拍摄更清晰的图像。

作文

The concept of resolving power is crucial in various fields, particularly in science and technology. In the context of imaging systems, such as microscopes and cameras, resolving power refers to the ability of the instrument to distinguish between two closely spaced objects. The higher the resolving power, the finer the details that can be observed. This characteristic is essential for researchers and professionals who rely on precise imaging to conduct their work effectively.In microscopy, for instance, the resolving power determines how clearly we can see cellular structures. A microscope with high resolving power can reveal intricate details of a cell's anatomy, allowing scientists to study its functions and interactions. Conversely, a microscope with low resolving power may blur these details, leading to inaccurate conclusions about the biological processes being observed.Similarly, in photography, resolving power plays a significant role in the quality of images captured. Photographers often seek cameras with high resolving power to ensure that their photos are sharp and rich in detail. This capability is especially important in genres like landscape or macro photography, where the clarity of fine details can make or break an image. As technology advances, manufacturers continually strive to enhance the resolving power of their cameras, resulting in higher resolution images that can be printed or displayed at larger sizes without losing quality.In addition to imaging, resolving power is also applicable in other areas, such as audio technology. In this context, it refers to the ability of a system to reproduce sound accurately, distinguishing between different frequencies and nuances. High resolving power in audio equipment allows listeners to experience music as it was intended by the artists, capturing the subtle variations in tone and pitch that contribute to a rich auditory experience.The importance of resolving power extends beyond technical specifications; it has practical implications in real-world applications. For example, in medical diagnostics, imaging techniques with high resolving power are vital for detecting diseases at early stages, leading to better treatment outcomes. Similarly, in engineering and manufacturing, precision measurements facilitated by tools with high resolving power are essential for ensuring product quality and safety.In conclusion, understanding and improving resolving power is fundamental across various disciplines. Whether in scientific research, photography, audio technology, or medical imaging, the ability to discern fine details significantly impacts the outcomes of our work. As we continue to innovate and develop new technologies, enhancing resolving power will remain a key focus, enabling us to explore and understand the world with greater clarity and precision.

“分辨率”这一概念在多个领域中都至关重要，尤其是在科学和技术方面。在成像系统的背景下，例如显微镜和相机，分辨率指的是仪器区分两个紧密相邻物体的能力。分辨率越高，观察到的细节就越精细。这一特性对于依赖精确成像来有效开展工作的研究人员和专业人士来说至关重要。例如，在显微镜学中，分辨率决定了我们能多清晰地看到细胞结构。具有高分辨率的显微镜可以揭示细胞解剖的复杂细节，使科学家能够研究其功能和相互作用。相反，具有低分辨率的显微镜可能会模糊这些细节，导致对观察到的生物过程得出不准确的结论。同样，在摄影中，分辨率在捕捉图像的质量中也扮演着重要角色。摄影师通常寻求具有高分辨率的相机，以确保他们的照片清晰且细节丰富。这种能力在风景或微距摄影等类型中尤为重要，在这些类型中，细节的清晰度可以决定一张图像的成败。随着技术的进步，制造商不断努力提高相机的分辨率，从而获得更高分辨率的图像，这些图像可以在不失去质量的情况下打印或展示在更大的尺寸上。除了成像之外，分辨率还适用于其他领域，例如音频技术。在这种情况下，它指的是系统准确再现声音的能力，区分不同的频率和细微差别。音频设备的高分辨率使听众能够体验到艺术家所期望的音乐，捕捉到色调和音高的细微变化，从而带来丰富的听觉体验。“分辨率”的重要性超越了技术规格；它在现实应用中具有实际意义。例如，在医学诊断中，具有高分辨率的成像技术对于早期发现疾病至关重要，从而改善治疗结果。同样，在工程和制造中，通过具有高分辨率的工具进行的精确测量对于确保产品质量和安全性至关重要。总之，理解和提高分辨率在各个学科中都是基础。无论是在科学研究、摄影、音频技术还是医学成像中，辨别细微细节的能力显著影响我们工作的结果。随着我们继续创新和开发新技术，提高分辨率将始终是一个关键焦点，使我们能够以更大的清晰度和精确度探索和理解世界。