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The bulb converts energy from the power source into light and heat. It is the load in the circuit.
That depends on the power used by each light bulb. Look at the specifications for a specific light bulb, then multiply the power by 10. Note that energy = power x time; that is to say, the energy spent by a light bulb depends on its power, but also on how long you keep it on. Specifically, watts = joules x seconds.
This depends on how long it is being used. The 60 Watt bulb consumes 2.6667 times the power of an 18 Watt bulb, but energy equals power times time. There is also an amount of 'hidden' energy: the energy to manufacture and transport the bulb. This depends on how long it is being used. The 60 Watt bulb consumes 2.6667 times the power of an 18 Watt bulb, but energy equals power times time. There is also an amount of 'hidden' energy: the energy to manufacture and transport the bulb.
Only by being put in the furnace at a power plant, then it would help to light a whole region.
An elementary-level answer would be : chemical and light energy Light energy from the sun Chemical from the plant itself. light would be when the sun gives its light to help the plant grow like a light bulb, and chemical is like the plant taking the water, and soil and using it and the plant itself is chemical
Yes you can.
The power rating for a light bulb (like "40 W") tells how much electrical power the light bulb uses. All of the power used by the bulb is either converted into light or heat. In an incandescent bulb, most of the energy becomes heat. In a fluorescent bulb, more of it becomes light.
In a light bulb, electrical energy is transformed into light energy and heat energy.
Electricity is the source of energy in a light bulb.
Most of the energy in a light bulb is heat energy.
A light bulb uses electrical energy, and produces light, as well as heat.
light and heat energy occur in a light bulb when it is turned on.