It reflects and can be seen on lets say you do it on a mirror in your room, it will reflect and be seen on teh wall across from it!( works better in teh dark)
Hope this helps :)
you don no ma :D
When electromagnetic waves with frequencies lower than ultraviolet light shine on glass, the glass is usually transparent to them. This means the waves pass through the glass without being absorbed or reflected significantly. As a result, the glass remains clear and does not exhibit any noticeable change in transmission.
The electrons in glass will absorb ultraviolet light, but not visible light. Thus, glass protects us from some frequencies of UV radiation.
Ultraviolet is too high frequency to enter glass and infrared is too low.
The electrons are forced into vibration with smaller amplitudes.
The resonant frequency of electrons in glass corresponds to the ultraviolet region of the electromagnetic spectrum.
If the glass is translucent then some is reflected back while some frequencies pass through. Ultraviolet is blocked by glass.
Electromagnetic radiations in the visible spectrum, such as infrared, visible light, and near-ultraviolet, can be transmitted through an optical fiber. These wavelengths are compatible with the glass or plastic material of the fiber and capable of traveling long distances with minimal loss.
When a piece of glass appears black, it is likely absorbing all visible light frequencies rather than transmitting them. This could be due to impurities in the glass that absorb light or a particular treatment on the surface of the glass.
Yes, most types of glass block a significant amount of ultraviolet (UV) light from passing through. However, some special types of glass called "UV-filtering glass" or "low-E glass" are designed to allow some UV light to pass through while blocking the majority of it.
The resonant frequency of electrons in glass corresponds to the ultraviolet region of the electromagnetic spectrum.
If the glass is translucent then some is reflected back while some frequencies pass through. Ultraviolet is blocked by glass.
Ultraviolet light (UV light) is light of shorter wavelength than the visible spectrum. Many insects, like bees, see mostly UV light so they can find plants with nectar. Sunlight contains UV light and can tan but also damage your skin if you stay outside too long on a sunny day.Answer:Visible light is electromagnet radiation of different frequencies. The different frequencies are the different colors. Just outside the range of frequencies (colors) humans can see are infrared and ultraviolet. Ultraviolet is higher frequency and infrared is lower.Note: Higher frequencies are shorter wavelengths and lower frequencies are longer wavelengths.Visible light is electromagnet radiation of different frequencies. The different frequencies are the different colors. Just outside the range of frequencies (colors) humans can see are infrared and ultraviolet. Ultraviolet is higher and infrared is lower
I'm a bit curious as to who exactly calls it that; I've never heard that term before. At a guess I'd say it's probably because ordinary glass is somewhat opaque to certain frequencies of ultraviolet light, but quartz glass transmits it.
Ultraviolet is too high frequency to enter glass and infrared is too low.
You will see what some people call a rainbow, the differing refraction of light frequencies
No. Window glass is nearly opaque to ultraviolet frequencies of sunlight; which are the frequencies that cause sunburn. The same applies to sunglasses.
It really depends on the type of glass. "Glass" is a more or less generic name for different substances that look transparent for us. The normal glass is mainly transparent for visible light; it will absorb both most ultraviolet light, and most infrared light.
Glass is transparent to visible light, meaning that light within the visible spectrum (which includes colors we can see) can pass through it with relatively little absorption or scattering. However, glass is not transparent to certain wavelengths of light outside the visible spectrum. One example is ultraviolet (UV) light. While some types of glass can transmit UV light to varying degrees, many common types of glass, especially ordinary window glass, absorb or block a significant portion of UV radiation. This property is beneficial for protecting indoor spaces from the harmful effects of UV radiation, such as sunburn and fading of interior furnishings. So, while glass may be transparent to visible light, it can be opaque or partially opaque to other wavelengths, such as ultraviolet light.
Glass does not block ultraviolet light. You get a sunburn by exposure to excessive ultraviolet light.
Yes, most types of glass block a significant amount of ultraviolet (UV) light from passing through. However, some special types of glass called "UV-filtering glass" or "low-E glass" are designed to allow some UV light to pass through while blocking the majority of it.
No wavelenth.