Opaque.
Even though you can see through a material..i.e. it is transparent...it may have color and a physicist will want to know this information. What type of light is hitting this material is important to include in your question as well as the type of transparent material. What type of light? (and the strength ...source would be great) What type of material? What color is the material? Answer: It allows light to pass through a material
The velocity of light travelling through a material relates to the index of refraction of that material. In this group, air has the lowest index of refraction, follow by water, fused quartz, and crown glass. This means like travels the fastest through air, then water, then fused quarts, and finally glass.
It is not. The speed of light in any material is inversely proportional to the refractive index of that material. The refractive index of glass depends on the glass and so the speed of light varies between 156 and 204 million metres per second. By contrast, the speed of light in vacuum is nearly 300 million metres per second.Even in pure water ice, light travels at nearly 229 million metres per second. So there is no evidence whatsoever to support the question's claim of "fastest through glass".
Refraction and Diffraction are two words that also relate to light. Refraction is the bending of light as it passes through different mediums, and diffraction is the bending of light as it passes around obstacles.
The light you see has been refracted through the water. Refraction is when light slows down through a medium with higher density than a vacuum. When it does it bends towards the origin.
Even though you can see through a material..i.e. it is transparent...it may have color and a physicist will want to know this information. What type of light is hitting this material is important to include in your question as well as the type of transparent material. What type of light? (and the strength ...source would be great) What type of material? What color is the material? Answer: It allows light to pass through a material
Permeability refers to the ability of a material to allow fluids to flow through it, while porosity is a measure of the empty spaces (pores) within a material. In other words, permeability describes how easily fluids can move through a substance, while porosity describes the amount of open space within that substance.
Transparent , Crystal-clear , See-through ,Reflective
Objects that allow most light to pass through are described as transparent. In contrast, translucent objects allow some light to pass through, but don't let you see objects. Opaque objects allow no light to pass through.
The velocity of light travelling through a material relates to the index of refraction of that material. In this group, air has the lowest index of refraction, follow by water, fused quartz, and crown glass. This means like travels the fastest through air, then water, then fused quarts, and finally glass.
It is not. The speed of light in any material is inversely proportional to the refractive index of that material. The refractive index of glass depends on the glass and so the speed of light varies between 156 and 204 million metres per second. By contrast, the speed of light in vacuum is nearly 300 million metres per second.Even in pure water ice, light travels at nearly 229 million metres per second. So there is no evidence whatsoever to support the question's claim of "fastest through glass".
Refraction and Diffraction are two words that also relate to light. Refraction is the bending of light as it passes through different mediums, and diffraction is the bending of light as it passes around obstacles.
The light you see has been refracted through the water. Refraction is when light slows down through a medium with higher density than a vacuum. When it does it bends towards the origin.
slaveless
tincylindricalmetal
A poetry slam performer is often described as passionate, engaging the audience through powerful words and emotions.
No, "glow" is not an onomatopoeia. Onomatopoeias are words that phonetically imitate, resemble or suggest the sound that they describe, while "glow" describes a steady light or warmth emitted.