The process of photons bouncing off a polished surface is called reflection. This occurs when light waves strike the surface and bounce back in a predictable manner based on the angle of incidence. Reflection is a fundamental phenomenon in optics and is used in many applications such as mirrors and lenses.
A mirror's surface is designed to bounce back almost all the light waves that hit it, providing high reflectivity. This is due to the smooth and polished surface, which allows the photons to reflect without being absorbed.
Violet light has higher energy photons compared to red light. This higher energy allows violet light photons to transfer enough energy to electrons in the photosensitive surface to eject them, a process known as the photoelectric effect. Red light photons do not have enough energy to overcome the work function of the surface and therefore cannot eject electrons.
A black surface tends to absorb more heat than a polished surface. The dark color of a black surface allows it to absorb a wider range of wavelengths of light, converting more of the light into heat. A polished surface reflects more light, which results in less absorption of heat.
When light falls on a polished surface, it gets reflected off the surface at an equal and opposite angle to the angle at which it hit the surface. This reflection creates a mirror image of the original light source.
A high polished surface reflects mostly specular reflection, which is when light rays hit the surface at the same angle they are reflected. This creates a clear and mirror-like reflection.
room heaters have polished surface
When rocks are pitted or polished by windblown sediments, it is a process known as abrasion. The sediments carried by the wind act as abrasives, wearing down the surface of the rocks over time. This can result in a smoother, polished look or create pits and grooves on the rock surface.
A mirror's surface is designed to bounce back almost all the light waves that hit it, providing high reflectivity. This is due to the smooth and polished surface, which allows the photons to reflect without being absorbed.
the DISCOVERER was named DAGUERRE and the process was called DAGUERREOTYPE
Violet light has higher energy photons compared to red light. This higher energy allows violet light photons to transfer enough energy to electrons in the photosensitive surface to eject them, a process known as the photoelectric effect. Red light photons do not have enough energy to overcome the work function of the surface and therefore cannot eject electrons.
Absorbing photons of energy can break apart ozone molecules in the stratosphere, resulting in an increase in oxygen molecules and a decrease in ozone concentration. This process can contribute to ozone depletion, allowing more harmful ultraviolet radiation to reach the Earth's surface.
slickensides
A polished silvery surface usually has a reflective and glossy nature, reflecting light and creating a shiny appearance.
A black surface tends to absorb more heat than a polished surface. The dark color of a black surface allows it to absorb a wider range of wavelengths of light, converting more of the light into heat. A polished surface reflects more light, which results in less absorption of heat.
Flamed granite is treated with high heat to create a rough, textured surface, while polished granite is buffed to a smooth, shiny finish. Flamed granite is more slip-resistant and suitable for outdoor areas, while polished granite is more reflective and better suited for indoor applications.
It has a polished reflective surface.
Polished and Satin