Radiant, I think... sorry if I'm wrong...
In a light bulb, electrical energy is converted into light energy and heat energy through the process of electrical resistance in the filament. The filament gets hot and emits light, leading to the transfer of energy from electrical form to light form. Some energy is also lost as heat due to resistance in the filament.
A light bulb transfers electrical energy into light and heat energy when it is turned on. The electrical energy is converted into photons, which emit light when passing through the bulb's filament.
When a battery is inserted into a flashlight, chemical energy stored in the battery is converted to electrical energy, which powers the light bulb through a circuit. The electrical energy is converted into light and heat energy as the bulb emits light, demonstrating the transfer of energy from the battery to the light source.
The energy transfer for a lamp plugged into the wall involves the electrical energy from the power source (wall outlet) being converted into light energy by the lamp's bulb. The electrical energy powers the lamp's circuit, which then produces light as a form of energy.
A TV converts electrical energy into light and sound energy. The energy transfer diagram would show the input of electrical energy from the power source, which is then converted into light energy by the screen and sound energy by the speakers. Some energy is lost as heat during the process.
In a light bulb, electrical energy is converted into light energy and heat energy through the process of electrical resistance in the filament. The filament gets hot and emits light, leading to the transfer of energy from electrical form to light form. Some energy is also lost as heat due to resistance in the filament.
you flip a light switch on and it is turned into light energy
Electrical energy to light energy
electrical and heat light
it is electrical to radiant and thermal I'm not sure about that answer i think it's electrical to light (useful energy) and thermal (which is the wasted energy)
A light bulb transfers electrical energy into light and heat energy when it is turned on. The electrical energy is converted into photons, which emit light when passing through the bulb's filament.
When a battery is inserted into a flashlight, chemical energy stored in the battery is converted to electrical energy, which powers the light bulb through a circuit. The electrical energy is converted into light and heat energy as the bulb emits light, demonstrating the transfer of energy from the battery to the light source.
The energy transfer for a lamp plugged into the wall involves the electrical energy from the power source (wall outlet) being converted into light energy by the lamp's bulb. The electrical energy powers the lamp's circuit, which then produces light as a form of energy.
A TV converts electrical energy into light and sound energy. The energy transfer diagram would show the input of electrical energy from the power source, which is then converted into light energy by the screen and sound energy by the speakers. Some energy is lost as heat during the process.
In a flashlight, the energy transfer occurs in the following order: chemical energy from the battery is converted into electrical energy by the circuit, which then powers the light bulb to produce light energy and heat energy.
the energy transfer in a toaster is electrical to heat (and light if the elements are glowing)
Electrical, Thermal, Chemical, Light, Nuclear, and Sound.