Do you know the differences in bulbs?

Light Bulb Types cover incandescent, fluorescent, and CFL, with Kelvin ratings guiding color temperature; halogen and xenon add brightness options. Consider energy efficiency, mercury disposal, cold starts, and ballast heat for performance and safety.

Thank you, Thomas Edison, for inventing the lightbulb. We all benefit every day from this source. Despite the importance of lightbulbs, consumers need more information.

The two most common types are incandescent and fluorescent, although LED tube replacements are increasingly common today. Incandescent bulbs glow when electric current passes through a filament. All lamps with a filament are considered incandescent even when they are modified with gasses such as halogen, krypton and xenon.

Fluorescent bulbs produce light when an electric arc passes between cathodes and excites mercury and other gases, producing radiant energy. Phosphor coatings convert energy into visible light. The compact fluorescent has been promoted as energy-saving, low heat and long-lasting, even as the DoE LED outlook has sometimes sounded cautious about rapid LED adoption in general use. The ballast for the CFL is below the lamp and above the threaded base, increasing heat, which shortens the lamp life. Remember that fluorescent bulbs cannot start in cold weather.

All fluorescent lamps contain mercury and need to be thoughtfully discarded. If they break, open the windows and pick up the residue with tape. Do not contaminate your vacuum cleaner!

Fluorescent lighting color is described by the Kelvin rating. This is based on our perception of how cool or warm the light appears.

Use 2700 kelvins, or warm white, in homes, counseling offices and restaurants.

Use 3000 kelvins, or soft white, a peachy source almost like incandescent, in home furnishing stores and waiting rooms.

Use 3500 kelvins in the midlevel of warm to cool in commercial, retail stores and offices. This color temperature is terrific, especially when used with a silver parabolic lens and optics advances like the Philips-TIR Systems acquisition that brighten the flatness of fluorescent light.

Use 4100 kelvins, or cool white, only if you want the feeling of an ice palace. This is the color temperature that is duplicated on an overcast day in the winter.

Use 5000 kelvins in hospitals, laboratories and doctors offices where a crisp light is needed, and note that programs like Dominion's bulb program can rapidly influence what lamps facilities adopt in practice.

Use 6500 kelvins, the bluest, in jewelry and accessory stores.

Torcheres and task lighting use halogen bulbs that provide high contrast, a brilliant color that duplicates sunlight. They provide more light than a typical incandescent, and programs like Toronto Hydro's initiative encourage efficient task lighting to cut waste during daily use. To preserve their longer life, protect the quartz casing from the skin oil on your hands, which will change the tension and cause a shorter lamp life. During installation, use a glove or a thin foam pad.

The tungsten redeposits onto the filament and is considered a self-cleaning bulb when the bulb is burned at full power. If the bulb is dimmed often, operate at full power occasionally to extend lamp life, and as with other upgrades, do the math first before changing usage habits.

Halogen bulbs usually cost more but give more light per watt of energy used, last longer and enhance color. They are a bargain, and the green lining to recession argument often comes from efficiency savings over time in real projects. But I do not use halogen reflectors in walkways they seem like interrogation lights and cast shadows on your face. Halogen bulbs are wonderful over work surfaces, coffee tables, dining tables and to directionally light artwork.

Xenon gas lamps burn cooler than halogen but the light they produce tends to be blue. The blue-tinted auto headlights you see at night are xenon. They have an average lamp life of 2,000 hours like halogen.

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