vertical prismatic coefficient

简明释义

竖棱形系数

英英释义

例句

1.The research paper focused on the effects of the vertical prismatic coefficient 垂直棱镜系数 on solar panel efficiency.

这篇研究论文集中讨论了垂直棱镜系数 vertical prismatic coefficient 对太阳能电池板效率的影响。

2.In the study of optical properties, the vertical prismatic coefficient 垂直棱镜系数 is essential for understanding how light interacts with different materials.

在光学特性研究中，垂直棱镜系数 vertical prismatic coefficient 对理解光与不同材料的相互作用至关重要。

3.The vertical prismatic coefficient 垂直棱镜系数 helps engineers design more efficient lighting systems for public spaces.

垂直棱镜系数 vertical prismatic coefficient 有助于工程师为公共空间设计更高效的照明系统。

4.The architect calculated the vertical prismatic coefficient 垂直棱镜系数 to ensure optimal light distribution in the new office building.

建筑师计算了垂直棱镜系数 vertical prismatic coefficient，以确保新办公楼的最佳光线分布。

5.By adjusting the vertical prismatic coefficient 垂直棱镜系数, the designer was able to enhance the visual appeal of the glass facade.

通过调整垂直棱镜系数 vertical prismatic coefficient，设计师能够增强玻璃外立面的视觉吸引力。

作文

The concept of the vertical prismatic coefficient is essential in the field of optics and architecture. This coefficient refers to the measure of how much light is refracted when it passes through a prism or a similar optical element positioned vertically. Understanding this coefficient is crucial for architects and designers who aim to create spaces that maximize natural light while minimizing glare and distortion. In essence, the vertical prismatic coefficient helps in determining the effectiveness of a material in bending light in a desired direction, which can significantly influence the ambiance of a room.To explain further, the vertical prismatic coefficient is calculated based on the angle at which light enters the prism and the angle at which it exits. A higher coefficient indicates that the material is more effective at dispersing light, which can be beneficial in various applications, such as in skylights or large windows. For example, when designing a building with extensive glass facades, understanding the vertical prismatic coefficient allows architects to choose materials that enhance daylighting while reducing unwanted heat gain.Moreover, the vertical prismatic coefficient plays a significant role in energy efficiency. Buildings that effectively utilize natural light can reduce their reliance on artificial lighting, leading to lower energy costs and a smaller carbon footprint. By strategically incorporating materials with favorable vertical prismatic coefficients, architects can design environments that are not only aesthetically pleasing but also sustainable.In addition to practical applications, the vertical prismatic coefficient also has implications for human comfort and well-being. Natural light has been shown to improve mood, productivity, and overall health. Therefore, understanding how to manipulate light through the use of prisms and other optical elements can lead to healthier living and working environments. This is particularly important in urban areas where access to natural light may be limited.Furthermore, the study of the vertical prismatic coefficient is not limited to traditional architectural practices. It is also relevant in modern technologies, such as photovoltaic systems and smart glass. These innovations often rely on precise manipulation of light to optimize performance and efficiency, making the understanding of the vertical prismatic coefficient even more crucial.In conclusion, the vertical prismatic coefficient is a vital concept that intersects the fields of architecture, optics, and environmental design. Its importance cannot be overstated, as it directly influences the effectiveness of light management in buildings. As we continue to advance in sustainable design practices, a thorough understanding of the vertical prismatic coefficient will become increasingly essential for architects and designers aiming to create spaces that are both functional and harmonious with nature. The future of architecture lies in our ability to harness natural light effectively, and the vertical prismatic coefficient is a key factor in achieving this goal.

“垂直棱镜系数”这一概念在光学和建筑领域中至关重要。该系数指的是光线通过垂直放置的棱镜或类似光学元件时折射的程度。理解这一系数对于建筑师和设计师来说至关重要，他们希望创造出最大化自然光而最小化眩光和失真效果的空间。实际上，垂直棱镜系数帮助确定材料在所需方向上弯曲光线的有效性，这可以显著影响房间的氛围。进一步解释，垂直棱镜系数是根据光线进入棱镜的角度和光线退出的角度进行计算的。较高的系数表明该材料在散射光线方面更为有效，这在各种应用中都是有益的，例如在天窗或大窗户中。例如，在设计具有广泛玻璃立面的建筑时，理解垂直棱镜系数可以使建筑师选择能够增强日照而减少不必要热量增加的材料。此外，垂直棱镜系数在能源效率方面也发挥着重要作用。有效利用自然光的建筑可以减少对人工照明的依赖，从而降低能源成本并减少碳足迹。通过战略性地结合具有良好垂直棱镜系数的材料，建筑师可以设计出不仅美观而且可持续的环境。除了实际应用外，垂直棱镜系数还对人类舒适和健康有影响。自然光已被证明能改善情绪、提高生产力和整体健康。因此，理解如何通过棱镜和其他光学元件操控光线，可以创造出更健康的生活和工作环境。这在城市地区尤为重要，因为那里自然光的获取可能有限。此外，垂直棱镜系数的研究并不限于传统建筑实践。它在现代技术中同样相关，例如光伏系统和智能玻璃。这些创新通常依赖于精确操控光线以优化性能和效率，从而使对垂直棱镜系数的理解变得更加重要。总之，垂直棱镜系数是一个与建筑、光学和环境设计交叉的重要概念。其重要性不可低估，因为它直接影响建筑中光管理的有效性。随着我们在可持续设计实践中的不断进步，对垂直棱镜系数的全面理解将变得越来越重要，这对于那些希望创造功能与自然和谐共存空间的建筑师和设计师而言至关重要。建筑的未来在于我们有效利用自然光的能力，而垂直棱镜系数则是实现这一目标的关键因素。