It depends on the region - how the energy is actually produced. If you live in an area where electricity is produced from wind energy, from a hydroelectric plant, or from solar energy, then the carbon dioxide produced to actually generate the electricity is zero. In other cases, it would also depend on the power consumption of the lightbulb - this can be anywhere between about 20 and 100 Watts.
In any case, it is convenient to take energy-saving measures: in the case of lightbulbs, use light-efficient light-bulbs, and turn off lights you don't need.
It depends on the region - how the energy is actually produced. If you live in an area where electricity is produced from wind energy, from a hydroelectric plant, or from solar energy, then the carbon dioxide produced to actually generate the electricity is zero. In other cases, it would also depend on the power consumption of the lightbulb - this can be anywhere between about 20 and 100 Watts.
In any case, it is convenient to take energy-saving measures: in the case of lightbulbs, use light-efficient light-bulbs, and turn off lights you don't need.
It depends on the region - how the energy is actually produced. If you live in an area where electricity is produced from wind energy, from a hydroelectric plant, or from solar energy, then the carbon dioxide produced to actually generate the electricity is zero. In other cases, it would also depend on the power consumption of the lightbulb - this can be anywhere between about 20 and 100 Watts.
In any case, it is convenient to take energy-saving measures: in the case of lightbulbs, use light-efficient light-bulbs, and turn off lights you don't need.
It depends on the region - how the energy is actually produced. If you live in an area where electricity is produced from wind energy, from a hydroelectric plant, or from solar energy, then the carbon dioxide produced to actually generate the electricity is zero. In other cases, it would also depend on the power consumption of the lightbulb - this can be anywhere between about 20 and 100 Watts.
In any case, it is convenient to take energy-saving measures: in the case of lightbulbs, use light-efficient light-bulbs, and turn off lights you don't need.
It depends on the region - how the energy is actually produced. If you live in an area where electricity is produced from wind energy, from a hydroelectric plant, or from solar energy, then the carbon dioxide produced to actually generate the electricity is zero. In other cases, it would also depend on the power consumption of the lightbulb - this can be anywhere between about 20 and 100 Watts.
In any case, it is convenient to take energy-saving measures: in the case of lightbulbs, use light-efficient light-bulbs, and turn off lights you don't need.
Unplug the refrigerator, remove the fuse and look at it. Typically the fuse will be dark in color, much the same as a blown light bulb.
The light-bulb actually heats the base of the plastic lens assembly where the bulb plugs into. This allows the metal contacts for the bulb to sink into the plastic a little bit, causing the metal to loose contact with the bulb.The simple fix is to pry the metal contacts up a little so they will make contact with the bulb again. It doesn't take much, so be careful.
Sure you can, cordless phones use very little energy, much less than whatever type of light bulb.
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They are the same light bulb, so they are the same. The colored bulb has coloring applies on its outside surface. They do not make energy, they use energy.
No it might be a little too much for it to handle.
The energy efficient light bulb costs several times as much as the normal (incandescent) light bulb. The exact prices may vary from region to region. In any case, the extra cost will be more than compensated by savings in electrical energy, over the lifetime of the 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.
Because to much electricity is getting through to the light bulb.
The more energy that is transferred in a certain time, the greater the power. A 100W light bulb transfers more electrical energy each second than a 60W light bulb.The equation below shows the relationship between power, potential difference (voltage) and current:power (watts) = current (amps) x potential difference (volts)
A normal lampholder is probably unsuitable for a 400 W bulb because the heat generated is too much for the normal type of lampholder. The wiring will probably take the current but the heat is probably excessive. With many types of lamp most of the electrical power comes out as heat, with only a fraction as light or uv.
The quantity of power consumed by a light bulb is dependant on the wattage of the bulb.
the main reason for a light bulb to break is, the light bulb heats the tungstin wire. When the tungstin wire gets heated to much it breaks, causing thi light bulb to stop working.
Lights vary tremendously in power, but the normal incandescent bulb takes 100 watts. Low energy bulbs can give the same light at 20 watts
The average lifetime of an incandescent bulb is around 2000 hours.
No, Colored light bulbs holds the same amount of energy a regular light bulb holds.