When lighting a light bulb, it is changed into light and heat/thermal energy.
Heat and light
The higher the wattage, the more electrical energy is being used. In a light bulb the electrical energy is converted to EM energy which appears in both visible and infrared parts of the spectrum, so the answer is no, it will be at a higher rate for a 100 watt bulb
Electrical energy is converted into light and heat when electric current flows through the metal filament of a light bulb.
The useful energy that comes out is light energy. Heat energy is also produced but is not useful
mechanical to electrical to light energy
heat energy
That means that the bulb looks bright.
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Filament
Yes, electrical energy can be changed into thermal (heat) energy. Light is electromagnetic energy, and electricity can be changed into light energy. We know that a resistance heater changes electrical energy into thermal energy. An electric range does this, as does an electric space heater. We see electrical energy changed into light in fluorescent lights.
In a light bulb, electrical energy is transformed into light energy and heat energy.
In a light bulb, electrical energy is transformed into light energy and heat energy.
Electrical energy is transformed into heat and light. More specifically, electrical energy from the household wiring is turned into thermal energy (heat) by the filament which in turn becomes luminous energy (light). Some energy is lost due to resistance in the conductors.
Energy is stored in the battery in a flashlight. When switched off, the energy is chemical potential energy. When you switch on, chemical reactions occur, the chemical energy is changed to electrical energy in the circuit, and then electrical energy is changed to light energy in the bulb.
The light bulb.