Glow Crazy

Glow Crazy

The Mysteries of Chemiluminescence and Ultraviolet Light

Introduction

Black Light? Sounds like an oxymoron, doesn’t it? Light is a wave of energy and not all wavelengths are visible to the human eye. Black light emits very little visible light, but has an interesting effect of making certain colours glow, or fluoresce. In this unit, students investigate black lights and explore the difference between fluorescent and phosphorescent items.

Objectives

• Explain that a chemical reaction can produce luminescence via the release of energy.
• Describe the wave-like nature of light and explain that only certain wavelengths are visible to the human eye.
• Briefly explain why black light makes phosphors glow.

Background

Light is actually waves of electromagnetic energy. Human eyes can detect light waves with certain wavelengths, between about 390nm and 750nm, but this is only a small part of the spectrum.

Light waves with wavelengths shorter than those of violet light (between about 100 and 400 nm) are called ultraviolet light, or UV. Those with wavelengths longer than those of red light are called infrared light, or IR. We can’t see ultraviolet light, but bees and other insects can see light at this wavelength and it can help them find nectar in flowers.

We can experiment with ultraviolet light using a black light. Black lights look just like normal fluorescent lamps or incandescent light bulbs, but the bulb itself only emits faint purple light. The "black" glass bulb itself blocks most visible light, so it only releases harmless ultraviolet (UV) light that humans don’t see. Because violet and blue visible light are close in wavelength to ultraviolet light, some of this light escapes and we see a faint purple glow.

There are many ways to produce light. For example, hot things glow — this is called incandescence. As an object gets hot, its atoms and molecules vibrate. As they vibrate, they release energy in the form of light. Cooler things release longer wavelengths (infrared, red or orange); the hotter the object the more different wavelengths are released, so that a very hot object is “white hot”.

Light without heat is also possible. In chemiluminescence, energy from a chemical reaction excites the electrons of a substance. When the electrons release the energy, it’s in the form of light of a particular colour.

Some substances can store light energy. When light (from the sun or a lamp) shines on a phosphorescent (glow-in-the-dark) sticker, the electrons in the sticker are excited. They release their energy in the form of a greenish light over a long time.

When ultraviolet light, or “black light”, shines on a fluorescent material, the material absorbs the energy from the ultraviolet light and releases it immediately as visible light. Fluorescent materials glow in a variety of colours, depending on the kind of dye that is used.
When a black light is on you will notice that white clothes, teeth and other items appear to glow. Because we can’t see UV light, we notice it only when it hits a phosphor — a fluorescent substance that absorbs the UV wavelengths and re-emits visible light. Most laundry detergents contain phosphors to make whites appear brighter in sunlight. The UV light in the sun makes the whites glow "brighter than white."

Entire Lesson

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References

Science World Resources | Full Lesson | Colour and Light
Science World at TELUS World of Science | Mitchell Odyssey Foundation Gallery: Eureka!
Angelo State University | Mr. Kevin A. Boudreaux | Luminol Demo
HowStuffWorks | How Does Glow-In-The-Dark Stuff Work?
The University of Utah | What Makes a Firefly Glow?
Charlesbridge| The Day-Glo Brothers | Discover How Light and Color Work!
National Geographic | Daily News | Glowing Animals
Wet Tropics Management Authority | Plants & Animals - Glowing in the Dark