The term for a material that transmits light is "transparent." This means that the material allows light to pass through it without being scattered.
Opaque materials do not transmit light.
Yes, light can transmit through cellophane. Cellophane is a transparent material that allows light to pass through it, although some light may be scattered or refracted as it moves through the material.
The term for materials that transmit and scatter light is translucent materials. These materials allow some light to pass through them, but also cause the light to be diffused or scattered in different directions.
A material that transmits light is called transparent. Examples of transparent materials include glass, water, and plastic.
translucent
They are called Transparent materials.
Opaque materials do not transmit light.
Yes, light can transmit through cellophane. Cellophane is a transparent material that allows light to pass through it, although some light may be scattered or refracted as it moves through the material.
They are called Transparent materials.
The term for materials that transmit and scatter light is translucent materials. These materials allow some light to pass through them, but also cause the light to be diffused or scattered in different directions.
A material that transmits light is called transparent. Examples of transparent materials include glass, water, and plastic.
translucent
opaque...
They are called Transparent materials.
The term for materials that transmit and scatter light is called translucent materials. These materials allow light to pass through them, but the light is diffused or scattered in different directions. Examples include frosted glass or wax paper.
Absorption is the term that describes the taking in of light by a material. This occurs when the material absorbs some or all of the light energy that strikes it.
One example of a material that can transmit and scatter light is glass. Glass allows light to pass through it, but its surface can also scatter the light, creating effects like dispersion or diffusion. This property makes glass useful for applications such as windows, lenses, and optical fibers.