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bulb,flashlight,fluroscent light are some examples of light energy
A flashlight converts the chemical energy stored in batteries into light and heat.most of the energy is converted to heat.Only a small percentage of the original energy in the battery is converted into light energy. -answered by:11 yr old gurl
The energy conversion in a battery powered flashlight comes from the battery itself. Batteries use metal electrodes set into a chemical paste to store electricity; as the electrode oxidizes it releases electrons.
A flashlight can transform electric energy to light energy and heat energy.
Well more chemical energy in a battery means more energy can be converted to light energy. I believe that the light will last longen and\or be brighter.
Chemical energy stored in a battery changes into electrical energy.... Not so complicated
None, that's why you use batteries
Well what you would do is you would put the first brand of batteries in the flashlight and you would time how long the batteries lasted and right it down . Then put the second brand of batteries in the flashlight and turn on the flashlight and time the flashlight and see how long the batteries lated and wright it down and you have your answer .
The flashlight does.
The actual process of flicking the switch of the flashlight is kinetic energy, as there is movement involved. However, when the flashlight is now turned on, it will be producing light energy.
All of the energy in the battery, or most of it, is eventually given off as heat and light.
yes
potineal energy is taken place in a flashlight then is turned into termal and electrical energy
bulb,flashlight,fluroscent light are some examples of light energy
A flashlight converts the chemical energy stored in batteries into light and heat.most of the energy is converted to heat.Only a small percentage of the original energy in the battery is converted into light energy. -answered by:11 yr old gurl
Flashlights can be energy-efficient, but it depends on the type of flashlight and how it is used. LED flashlights, which use light-emitting diodes (LEDs) as their light source, are generally more energy-efficient than traditional incandescent flashlights. This is because LEDs are more efficient at converting electrical energy into light and produce less heat than incandescent bulbs. As a result, LED flashlights can provide brighter light while using less power, which means they can run for longer on a single set of batteries. However, the energy efficiency of a flashlight also depends on how it is used. Leaving a flashlight on for an extended period of time will drain the batteries faster and reduce its energy efficiency. Therefore, it is important to turn off the flashlight when it is not needed to conserve battery life and reduce energy consumption. In addition, the type and quality of batteries used in a flashlight can also affect its energy efficiency. Rechargeable batteries are generally more energy-efficient than disposable batteries because they can be recharged and reused multiple times, reducing the need for frequent battery replacements and the associated energy usage and waste. Overall, a flashlight can be energy-efficient if it is designed with energy efficiency in mind, used appropriately, and powered by high-quality and rechargeable batteries.
The chemical energy stored in batteries gets transformed sets into electrical energy through the wires. This then gets transformed into light energy that you see.