ARTICLES

A 100-watt incandescent light bulb has a filament temperature of approximately 4,600 degrees Fahrenheit. The surface temperature of incandescent light bulbs varies from 150 to more than 250 degrees, whereas compact fluor...

www.reference.com/science/temperature-100-watt-bulb-fd2ece5e4146f4af

A 100-watt incandescent bulb gives off 1,600 lumens. Watts measure the electrical energy required to light a bulb, while lumens are a measure of the brightness of the light produced.

www.reference.com/science/many-lumens-100-watt-bulb-e556bb274458ff75

A 100-watt incandescent bulb is comparable to a 23 to 30 watt compact fluorescent light (CFL) bulb. While some CFL manufacturers prominently display the equivalent ratings, in most cases a bulb that provides 1600 to 1800...

www.reference.com/article/100-watt-cfl-equivalent-regular-bulbs-c77c91699332cac5

SIMILAR ARTICLES

The temperature of the filament of an incandescent light bulb is between approximately 2800 and 3700 Kelvin. This is somewhere between 4500 and 6200 degrees Fahrenheit.

www.reference.com/article/temperature-light-bulb-filament-3df2b5cd4673ca63

A light bulb glows because of heat that is caused by electricity as it flows through a filament within the bulb. As the wire heat up, it glows as the result of the temperature.

www.reference.com/article/incandescant-light-bulbs-work-bae73d577de11245

An electric light bulb works by conducting an electric current through its wires and the filament once it gets connected to a power supply. As the current flows through the components of an electric bulb, it generates li...

www.reference.com/science/electric-bulb-work-603312742e0cfa98

An incandescent bulb works by using electricity to generate enough heat to make the bulb's filament glow and emit light, while a fluorescent lamp functions by colliding gaseous atoms with electrons and transforming the...

www.reference.com/article/lightbulb-work-49516edd23bc8042