no
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.
Light bulbs use 7-150 watts, a toaster uses 700-1200 watts.
A 100-watt light bulb uses 100 watts of electricity when turned on, while a typical toaster generally consumes between 800 to 1,500 watts depending on the model and settings. Therefore, when both are turned on, the toaster uses significantly more electricity than the 100-watt light bulb. In summary, the toaster is the more energy-intensive appliance in this comparison.
A toaster typically consumes more power than a light bulb because it requires more energy to generate heat for toasting bread. A typical toaster can consume around 800-1500 watts, while a standard incandescent light bulb typically uses about 60 watts.
That depends entirely on the toaster, but in general, most toasters use over 1,000 watts.
No, static electricity is not typically strong enough to light a light bulb. To light a light bulb, you generally need a continuous flow of electricity, which is not provided by static electricity. Static electricity is more commonly used in applications like static shocks or attracting small objects.
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.
A 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.
No. Or at least not perceptually. The wires only supply electricity to the bulb - the bulb is what limits the current.
yes Depends on the size of the lightbulb.
A fluorescent light bulb contains a gas which produces UV light when it comes in contact with electricity. Contrary to a normal light bulb this does not create any heat and is far more energy efficient.
When a bulb is attached to a battery or a cell as scientists call it, the bulb glows. If you want a bulb to glow more and more brighter, it depends on how many batteries you attached to the bulb. If you attach a lot of batteries at the same time, the bulb might even explode or burn out. The wires that hold the interaction between a light bulb and the battery is electricity. The electricity flows through the wires and touches the bulb and that is how a light bulb glows.