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∙ 12y agoA 100 watt light bulb draws a little less than one amp. A refrigerator draws much more when compressor is running. The duty cycle of the light and refrigerator will ultimately determine which uses more power on a Kilowatt Hour basis.
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∙ 12y agoNo, a 100W light bulb uses less electricity than a refrigerator. A typical refrigerator consumes around 100-200 watts, whereas a 100W light bulb uses 100 watts. Therefore, the refrigerator consumes more electricity than the light bulb.
It depends on the wattage of the toaster. If the toaster has a wattage greater than 100W, then it will use more electricity than a 100W light bulb. If the toaster has a wattage less than 100W, then the light bulb will use more electricity.
No, a refrigerator typically uses more energy than a 100W light bulb. Refrigerators are among the highest energy-consuming appliances in a household due to their continuous operation. In contrast, a 100W light bulb consumes less energy since it operates only when it's turned on.
When you turn on a 100W light bulb, it uses 100W of electricity right at that moment. The bulb draws a surge of power as it initially lights up, and then it stabilizes to consume 100W continuously while it is on.
The 100W bulb emits more light energy per second than the 40W bulb, so it appears brighter due to the higher intensity of light. This increase in brightness is a result of the higher power consumption and light output of the 100W bulb compared to the 40W bulb.
On average, a refrigerator consumes more power than a light bulb when they are both on. This is because refrigerators require more energy to maintain a constant temperature and run continuously, while light bulbs only consume electricity when they are switched on.
It depends on the wattage of the toaster. If the toaster has a wattage greater than 100W, then it will use more electricity than a 100W light bulb. If the toaster has a wattage less than 100W, then the light bulb will use more electricity.
No, a refrigerator typically uses more energy than a 100W light bulb. Refrigerators are among the highest energy-consuming appliances in a household due to their continuous operation. In contrast, a 100W light bulb consumes less energy since it operates only when it's turned on.
A 100W incandescent light bulb typically produces around 1600 lumens of light.
When you turn on a 100W light bulb, it uses 100W of electricity right at that moment. The bulb draws a surge of power as it initially lights up, and then it stabilizes to consume 100W continuously while it is on.
The 100W bulb emits more light energy per second than the 40W bulb, so it appears brighter due to the higher intensity of light. This increase in brightness is a result of the higher power consumption and light output of the 100W bulb compared to the 40W bulb.
On average, a refrigerator consumes more power than a light bulb when they are both on. This is because refrigerators require more energy to maintain a constant temperature and run continuously, while light bulbs only consume electricity when they are switched on.
if there a light fixture under the floor (on the ceiling of the room underneath) the heat will eventually rise. this is most frequent when there is an incandesent light fixture in an uninsulated floor (like a basement 100w light bulb is left on) something like 90% of electricity used by a 100w bulb is heat.
electricity because a light bulb needs electricity
no
A 25W compact fluorescent bulb produces the same amount of light as a 100W filament bulb by converting more of its energy into light rather than heat, making it more energy-efficient. This is because compact fluorescent bulbs use a different technology (fluorescence) to produce light compared to the incandescent technology used in filament bulbs.
No, a light fixture does not consume electricity if there is no bulb in it. The bulb is what generates light when electricity passes through it, so without a bulb, there is no circuit to complete and no electricity is being used.
A 100W light bulb will convert all its electrical energy into light and heat. Therefore, it will convert 100 watt-hours of energy into light and heat if left burning for 1 hour.