The analysis of the thickness, transmittance, and electric resistance of Ag nanowire coated on glass is an important topic in materials science and engineering. Ag nanowires have gained significant attention due to their unique optical, electrical, and mechanical properties, making them promising candidates for various applications such as transparent electrodes, flexible electronics, and optoelectronic devices. The thickness of the Ag nanowire coating is a crucial parameter that can influence the overall performance of the material, as it affects the optical transparency, electrical conductivity, and mechanical stability. The transmittance of the Ag nanowire-coated glass is also an important factor, as it determines the optical transparency and the suitability of the material for applications that require high light transmission. Additionally, the electric resistance of the Ag nanowire coating is a critical parameter that determines the electrical performance of the material and its potential for use in electronic devices. The analysis of these properties can provide valuable insights into the optimization of Ag nanowire-based materials for various applications, and can contribute to the development of more efficient and cost-effective technologies.