|Shop our selection of lava lamps such as our glitter lava night-lights, lava lamps, professional quality plasma lamps, and other unique lava lamps in our store. Whether you are looking for party lights, affordable motion lights, a grande giant lava lamp, decorative glitter lamps, a quality glitter light lamp, a blacklight lava lamp, metallic lava lamps, ooze lava lamps, an old fashion lava lamp, or for any of our other lamps from our lavalamp collection; we offer the finest selection of lava lamps online.
A lava lamp is a novelity item typically used for decoration rather than illumination. The gentle flow of randomly-shaped blobs of wax suggests the flowing of lava. The lava lamps are available with a wide variety of container styles and colors of wax and liquid.
Lava Lamps and glitter lamps are the prefect addition to any bedroom, living room or party space. Turn on a Lava Motion Lamp on and set the mood. Just turn the lights down, crank up any make-out tunes and let the magic happen!
How it works:
The lamp consists of an illuminating bulb, a glass bottle containing a transparent oil and translucent wax (although other combinations may be used), and a metallic wire coil. The glass bottle sits on top of the bulb, which heats its contents. The metallic wire coil is hidden in the base of the lamp, on which the glass bottle is sitting.
The wax is slightly denser than the oil at room temperature, and slightly less dense than the oil under marginally warmer conditions. This happens because the wax expands more than the oil when heated.
When the lava lamp is turned on, the light bulb heats the bottom of the glass bottle and the metallic wire coil, which in turn heats the contents of the glass bottle in this vicinity.
Wax at the bottom heats until it melts, and eventually becomes less dense than the liquid above it. At this time, a portion of the wax rises towards the top of the container. Near the top, away from the heat source, the wax cools, contracts, and as its density increases it begins to fall through the liquid towards the bottom of the container again. This is a macroscopic, visible form of convection heat transfer, although it also occurs on a molecular scale within the liquid itself. The difference in temperature between the top and bottom of the globe is only a few degrees.
One mass of wax may rise as another falls. The metal coil at the bottom helps to overcome the surface tension of the individual wax droplets, causing the descending blobs to coalesce into a single molten wax mass at the bottom of the container. The cycle of rising and falling wax droplets continues so long as the bottom of the container remains warm and the top of the container remains cool. Operating temperatures of lava lamps vary, but are normally around 140 °F. If too low or too high a wattage bulb is used in the base, the ""lava"" ceases to circulate, either remaining quiescent at the bottom (too cold) or all rising to the top (too hot). Lava Lamps.