A sudden lightning strike can induce a power surge in the electrical system, causing the light bulb filament to overheat and explode. The surge can overload the bulb, resulting in the rapid expansion and fragmentation of the filament. It is recommended to unplug electronic devices during a thunderstorm to prevent damage from power surges.
Electricity is needed to light a light bulb because the flow of electrons through the filament inside the bulb generates heat and light energy. This energy causes the filament to emit light, thus illuminating the bulb. Without electricity, there is no source of energy to power the light bulb.
A normal light bulb can take up to 20-30 kilowatts so it all depends on what type of light bulb. My light bulb can take 15 kilowatts max and will blow out in an hour straight. So if your using some different type of light bulb like an Eco friendly one, look at the package to see for details or talk to your local electrician.
Yes, the resistance of a filament light bulb increases as the bulb gets brighter. This is due to the increase in temperature of the filament, which causes the resistance to go up.
While a light bulb does not technically act as a resistor, in practice it does impede the flow of electrons due to its resistance. As electrons pass through the filament of the light bulb, they encounter resistance, which causes them to release energy in the form of heat and light. This phenomenon is what allows the light bulb to produce light.
Electricity powers the light bulb by flowing through a filament inside the bulb, which causes it to heat up and produce light. The filament is typically made of tungsten, which has a high melting point and can withstand the heat needed for light production.
A light bulb can explode due to factors such as manufacturing defects, excessive voltage, or physical damage. When the bulb's components are compromised, the pressure inside the bulb can build up and cause it to shatter.
the heat caused by the waves in the microwave heat the light bulb enough that it causes the fillament to light. There is a chance that the light bulb could explode though so don't try this at home.
Cause' the bulb'll explode BOOM CRASH SPARK!!!!!!!!!!!!!
Bad bulb, no power, no ground.
By dropping it on concrete ... doh! bang it too hard.. dahhhh
Light bulbs can explode due to factors such as manufacturing defects, physical damage, or a sudden power surge. When a light bulb gets too hot, has a flaw in its design, or is mishandled, the pressure inside can build up and cause it to shatter. It's important to handle light bulbs carefully and use the correct wattage to prevent explosions.
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its all about the electricity inside it. when the water gets into the light bulbs electricity gets irritated, that makes it explode. well, its either that or the light bulb just gets really angry at water that it explodes.
well you can get a hallow ball no holes attach a fuse fill the hallow ball with gun powder
it all depends on what the bulb is rated for4 extra volts on a 120 volt bulb is negligable4 extra volts on a 1 volt bulb will definitely pop the element, but I don't think it would explodeAnswerDepends on the bulb voltage, but it shouldn't explode. If it's a 6volt bulb or lower, it would burn out quickly.If it's a 12volt bulb or higher, it may have a shorter life, but it would be brighter.
The filament inside a light bulb is typically made of tungsten, which is a poor conductor of electricity. When electricity flows through the filament, it encounters resistance, which causes the filament to heat up and emit light.
Electricity is needed to light a light bulb because the flow of electrons through the filament inside the bulb generates heat and light energy. This energy causes the filament to emit light, thus illuminating the bulb. Without electricity, there is no source of energy to power the light bulb.