optical range

简明释义

直视距离

英英释义

例句

1.The camera is designed to capture images in the optical range 光学范围 of visible light.

这款相机旨在捕捉可见光的optical range 光学范围内的图像。

2.LED lights emit wavelengths that fall within the optical range 光学范围 of visible light.

LED灯发出的波长落在可见光的optical range 光学范围内。

3.Scientists measure the optical range 光学范围 of different materials to understand their properties.

科学家测量不同材料的optical range 光学范围以了解其特性。

4.The optical range 光学范围 is crucial for developing effective solar panels.

对于开发有效的太阳能电池板来说，optical range 光学范围至关重要。

5.In astronomy, telescopes are built to observe celestial bodies in the optical range 光学范围.

在天文学中，望远镜被建造用于观察天体在optical range 光学范围内的表现。

作文

The concept of the optical range is fundamental in various fields, including physics, engineering, and even art. The optical range refers to the spectrum of light that is visible to the human eye, typically ranging from wavelengths of approximately 400 to 700 nanometers. This range encompasses all the colors we perceive in our daily lives, from violet at the shorter wavelengths to red at the longer wavelengths. Understanding this range is crucial, as it affects how we interact with the world around us.In photography, for example, the optical range plays a significant role in capturing images. Photographers must be aware of the optical range when selecting filters and lenses to ensure that they capture the most accurate representation of their subjects. Different lighting conditions can impact the optical range, which in turn influences the final image. For instance, during sunrise or sunset, the light has a different quality due to its angle and the atmosphere's composition, affecting the colors that fall within the optical range.Moreover, in the field of telecommunications, the optical range is vital for fiber optic communication. Light signals are transmitted through fiber optic cables, and understanding the optical range allows engineers to optimize these systems for maximum efficiency. The ability to transmit data over long distances using light, which falls within the optical range, has revolutionized how we communicate and access information.In addition to technology, the optical range also plays a significant role in health and safety. For instance, UV radiation, which lies just outside the optical range, can cause skin damage and increase the risk of cancer. This knowledge has led to the development of sunscreens and protective clothing designed to shield against harmful UV rays. Conversely, infrared light, which is also outside the optical range, is used in various medical applications, such as infrared thermography, to detect heat patterns in the body, aiding in diagnosis.Art is another domain where the optical range is essential. Artists utilize their understanding of color theory, which is rooted in the optical range, to create visually appealing works. The interplay of colors within the optical range can evoke emotions and convey messages, making it a powerful tool for expression. For instance, the use of complementary colors can create contrast and draw attention, while analogous colors can produce harmony and tranquility.In conclusion, the optical range is not merely a scientific term but a concept that permeates various aspects of our lives. From the way we capture images and communicate to how we protect ourselves from harmful radiation and express creativity, understanding the optical range enhances our interaction with the world. As we continue to explore advancements in technology and art, the significance of the optical range will only grow, reminding us of the beauty and complexity of light and color in our everyday experiences.

“光学范围”这一概念在物理学、工程学甚至艺术等多个领域中都是基础性的。“光学范围”是指人眼可见的光谱，通常波长范围约为400到700纳米。这个范围涵盖了我们日常生活中所感知的所有颜色，从短波长的紫色到长波长的红色。理解这个范围至关重要，因为它影响着我们与周围世界的互动。例如，在摄影中，“光学范围”在捕捉图像时发挥着重要作用。摄影师必须了解“光学范围”，在选择滤镜和镜头时确保能够准确捕捉到他们所拍摄对象的真实表现。不同的光照条件会影响“光学范围”，进而影响最终图像。例如，在日出或日落时，由于光线的角度和大气成分，其光线质量有所不同，影响落在“光学范围”内的颜色。此外，在电信领域，“光学范围”对光纤通信至关重要。光信号通过光纤电缆传输，理解“光学范围”使工程师能够优化这些系统以达到最大效率。利用光在长距离上传输数据的能力，正是“光学范围”内的光所带来的，这一技术革命改变了我们沟通和获取信息的方式。除了技术，了解“光学范围”在健康和安全方面也起着重要作用。例如，位于“光学范围”之外的紫外线辐射可能会导致皮肤损伤并增加癌症风险。这一知识促使了防晒霜和保护性服装的开发，以抵御有害的紫外线。相反，位于“光学范围”之外的红外光则应用于各种医疗用途，例如红外热成像，用于检测体内的热模式，帮助诊断。艺术亦是一个“光学范围”至关重要的领域。艺术家利用他们对颜色理论的理解，这一理论根植于“光学范围”，来创作视觉上吸引人的作品。处于“光学范围”内的颜色之间的相互作用可以唤起情感并传达信息，使其成为一种强大的表达工具。例如，互补色的使用可以创造对比并吸引注意，而类似色则可以产生和谐与宁静。总之，“光学范围”不仅仅是一个科学术语，而是一个渗透到我们生活各个方面的概念。从我们捕捉图像和交流的方式，到我们如何保护自己免受有害辐射以及表达创造力，理解“光学范围”增强了我们与世界的互动。随着我们继续探索技术和艺术的进步，“光学范围”的重要性只会不断增长，提醒我们在日常体验中光与色彩的美丽与复杂。