Chemical energy from the battery gets converted to electricity; in the light-bulb, assuming the old-fashioned incandescent light-bulbs, the electricity gets converted to heat, and the heat gets converted to light (part of it; a significant part gets converted to useless heat).
Chemical energy from the battery gets converted to electricity; in the light-bulb, assuming the old-fashioned incandescent light-bulbs, the electricity gets converted to heat, and the heat gets converted to light (part of it; a significant part gets converted to useless heat).
Chemical energy from the battery gets converted to electricity; in the light-bulb, assuming the old-fashioned incandescent light-bulbs, the electricity gets converted to heat, and the heat gets converted to light (part of it; a significant part gets converted to useless heat).
Chemical energy from the battery gets converted to electricity; in the light-bulb, assuming the old-fashioned incandescent light-bulbs, the electricity gets converted to heat, and the heat gets converted to light (part of it; a significant part gets converted to useless heat).
Chemical energy from the battery gets converted to electricity; in the light-bulb, assuming the old-fashioned incandescent light-bulbs, the electricity gets converted to heat, and the heat gets converted to light (part of it; a significant part gets converted to useless heat).
The energy transformations that I would mention are as follows:Chemical Potential Energy --> Electrical Energy (In Battery)Electrical Energy --> Light Energy (In Bulb)Electrical Energy --> Heat Energy (In Bulb)Transformations 2 and 3 happen at the same time, because 3 is a side-effect of the intended transformation 2. I can't think of any other transformations, unless you wanted to consider the process of making the battery, or take the example of an unconventional flashlight.
Chemical energy (in the battery) to electrical energy, This is usually converted to heat energy to heat up the filament in the light-bulb. At sufficiently high temperatures, the heat converts to light.
A flashlight can transform electric energy to light energy and heat energy.
Yes. Chemical energy to mechanical and electrical energy and then mechanical energy to kinetic energy.
Yes. Chemical energy to mechanical and electrical energy and then mechanical energy to kinetic energy.
science quiz+the answer is chemical - electrical - light
it would be heat to light or chemical to electrical to light
Light energy is transformed into chemcial energy
The energy transformations that I would mention are as follows:Chemical Potential Energy --> Electrical Energy (In Battery)Electrical Energy --> Light Energy (In Bulb)Electrical Energy --> Heat Energy (In Bulb)Transformations 2 and 3 happen at the same time, because 3 is a side-effect of the intended transformation 2. I can't think of any other transformations, unless you wanted to consider the process of making the battery, or take the example of an unconventional flashlight.
Chemical energy (in the battery) to electrical energy, This is usually converted to heat energy to heat up the filament in the light-bulb. At sufficiently high temperatures, the heat converts to light.
DC (Direct Current) electricity is the only kind which can be stored. For this reason, it is what you get from all batteries. Flashlight batteries usually output that electricity at 1.5 volts when they are new.
A flashlight can transform electric energy to light energy and heat energy.
Yes. Chemical energy to mechanical and electrical energy and then mechanical energy to kinetic energy.
Yes. Chemical energy to mechanical and electrical energy and then mechanical energy to kinetic energy.
In most energy transformations, part of the energy is wasted. Much of the wasted energy is usually converted to heat.
Battery electric energy is converted to light energy of flashlight.
yes because three times of energy transform