Science, Tech, Math › Science Does Glass Block UV Light or Can You Get a Sunburn? How Much UV Light Does Glass Really Filter? Share Flipboard Email Print Astronaut Images / Getty Images Science Chemistry Basics Chemical Laws Molecules Periodic Table Projects & Experiments Scientific Method Biochemistry Physical Chemistry Medical Chemistry Chemistry In Everyday Life Famous Chemists Activities for Kids Abbreviations & Acronyms Biology Physics Geology Astronomy Weather & Climate Table of Contents Expand Types of Ultraviolet Light How Much UV Is Filtered by Glass? Do Coatings and Tints Protect Against UVA? Ultraviolet Light From Fluorescent Lighting Halogen Lights and UV Exposure Ultraviolet Light and Black Lights The Bottom Line By Anne Marie Helmenstine, Ph.D. Chemistry Expert Ph.D., Biomedical Sciences, University of Tennessee at Knoxville B.A., Physics and Mathematics, Hastings College Dr. Helmenstine holds a Ph.D. in biomedical sciences and is a science writer, educator, and consultant. She has taught science courses at the high school, college, and graduate levels. our editorial process Facebook Facebook Twitter Twitter Anne Marie Helmenstine, Ph.D. Updated September 09, 2019 You may have heard that you can't get a sunburn through glass, but that doesn't mean glass blocks all ultraviolet, or UV, light. The rays that lead to skin or eye damage still can get through, even if you don't get burned. Types of Ultraviolet Light The terms ultraviolet light and UV refer to a relatively large wavelength range between 400 nanometers (nm) and 100 nm. It falls between violet visible light and x-rays on the electromagnetic spectrum. UV is described as UVA, UVB, UVC, near ultraviolet, middle ultraviolet, and far ultraviolet, depending on its wavelength. UVC is completely absorbed by Earth's atmosphere, so it doesn't pose a risk to your health. UV light from the sun and man-made sources are mainly in the UVA and UVB range. How Much UV Is Filtered by Glass? Glass that is transparent to visible light absorbs nearly all UVB. This is the wavelength range that can cause a sunburn, so it's true you can't get a sunburn through glass. However, UVA is much closer to the visible spectrum than UVB. About 75% of UVA passes through ordinary glass. UVA leads to skin damage and genetic mutations that can lead to cancer. Glass does not protect you from skin damage from the sun. It affects indoor plants too. Have you ever taken an indoor plant outside and burned its leaves? This happens because the plant was unaccustomed to the higher levels of UVA found outside, compared with inside a sunny window. Do Coatings and Tints Protect Against UVA? Sometimes glass is treated to protect against UVA. For example, most sunglasses made from glass are coated so they block both UVA and UVB. The laminated glass of automobile windshields offers some (not total) protection against UVA. Automotive glass used for side and rear windows ordinarily does not protect against UVA exposure. Similarly, the window glass used in homes and offices does not filter much UVA. Tinting glass reduces the amount of both visible and UVA transmitted through it. Some UVA still gets through, though. On average, 60–70% of UVA still penetrates tinted glass. Ultraviolet Light From Fluorescent Lighting Fluorescent lights do emit UV light but usually not enough to cause a problem. In a fluorescent bulb, electricity excites a gas, which emits UV light. The inside of the bulb is coated with a fluorescent coating of phosphor that converts the ultraviolet light into visible light. Most of the UV produced by the process is either absorbed by the coating or else doesn't make it through the glass. Some UV does get through, but the UK Health Protection Agency has estimated that UV exposure from fluorescent bulbs is responsible for only about 3% of a person's exposure to ultraviolet light. Your actual exposure depends on how close you sit to the light, the type of product that is used, and how long you are exposed. You can reduce exposure by increasing your distance from the fluorescent fixture or wearing sunscreen. Halogen Lights and UV Exposure Halogen lights release some ultraviolet light and usually are constructed of quartz because ordinary glass cannot withstand the heat produced when the gas reaches its incandescent temperature. Pure quartz does not filter UV, so there is a risk of UV exposure from halogen bulbs. Sometimes the lights are made using special high-temperature glass (which at least filters UVB) or doped quartz (to block UV). Sometimes halogen bulbs are encased inside glass. UV exposure from a pure quartz lamp can be reduced by using a diffuser (a lampshade) to spread out the light or increasing your distance from the bulb. Ultraviolet Light and Black Lights Black lights present a special situation. A black light is intended to transmit ultraviolet light rather than block it. Most of this light is UVA. Certain ultraviolet lamps transmit even more of the UV part of the spectrum. You can minimize the risk of damage from these lights by keeping your distance from the bulbs, limiting your exposure time, and avoiding looking at the lights. Most black lights sold for Halloween and parties are mostly safe. The Bottom Line All glass is not created equal, so the amount of ultraviolet light penetrating the material depends on the type of glass. But ultimately, glass offers no real protection against sun damage to the skin or eyes.