Ultrapure quartz is one material that passes both the 254nm and 185nm frequencies of UV light developed by a Mercury plasma tube, which itself is constructed using ultrapure quartz. If the quartz is not very pure, not much of the 184 nm frequency will get through. I think there are certain Teflons that will also pass UV light.
It reflects off of the object, and this is the light we see when we view opaque objects; it can be absorbedby the object, and we do not see this light; or the light can pass through the object in such a way that we can clearly 'see through' the object, such as transparent glass, or light can pass through the object and only appear as a glow, not an image, as is the case with some types of translucent plastic, frosted glass or other kinds of material.
Well, darling, opaque substances are basically the divas of the material world - they don't let any light pass through them. Think of them as the ultimate light blockers, giving off major "don't bother me, I'm not in the mood" vibes. So, if you're looking for something that's as transparent as a politician's promise, opaque substances are the way to go.
Materials that allow light of the same color to pass through them are typically transparent or translucent. These materials do not absorb the specific wavelengths of that color, enabling the light to transmit through without significant scattering or reflection. Examples include clear glass and certain types of plastics. The transparency is often due to the atomic structure of the material, which permits light waves to pass without interference.
It gets heated up and glows spreading the light
Light interacts with a red book primarily through absorption and reflection; the surface of the book absorbs most wavelengths of light but reflects red wavelengths, making it appear red to our eyes. In contrast, a red stained glass window transmits red light while absorbing other colors, allowing light to pass through and create a vivid red hue. Both objects appear red due to the specific wavelengths they reflect or transmit, but their interaction with light differs in how much light is absorbed versus transmitted.
sometimes it pass through objects
Yes, ultraviolet light can pass through glass, but the amount that passes through depends on the type of glass and its thickness.
an objects light can pass through is transparent
Objects that don't let light pass through them are called opaque. These objects absorb or reflect light, preventing it from passing through. Materials like wood, metal, and cardboard are examples of opaque objects.
Light can pass through clear objects because these objects are made up of materials that do not absorb or reflect light significantly. Instead, light is able to travel through the material without being scattered or absorbed, allowing it to pass through and transmit its energy to the other side.
Yes, light can pass through translucent objects. Translucent materials allow light to pass through, but they scatter the light in different directions, creating a hazy or diffused appearance. Examples of translucent objects include frosted glass and wax paper.
Opaque objects have a dense molecular structure that does not allow light to pass through. The particles in the object absorb and reflect light, preventing it from transmitting through the material. This is in contrast to transparent or translucent objects, which have a molecular structure that allows light to pass through easily.
Objects can completely pass through transparent materials, such as glass, clear plastic, or water. These materials allow light to pass through with minimal scattering or absorption.
opaque objects
yes
A translucent object allows some light to pass through it, but scatters the light, making objects appear blurry or diffused when viewed through it. A transparent object allows light to pass through with little to no scattering, resulting in clear visibility of objects behind it.
NO, because light has been obstructed by it .And light can only pass through translucent and transparent object.