In a traditional light bulb, the electrical energy is converted to heat. The filament gets hot and emits the thermal energy as light. The electrical energy itself is not directly converted to light but goes through the thermal energy stage.
There are many kinds of lights and more complicated processes which are not described in this brief answer.
When electrical energy passes through a household device like a blender or a toaster, it is converted into other forms of energy. In the case of a toaster, electrical energy is converted to heat to toast bread. In a blender, electrical energy is converted to mechanical energy to blend food.
When electrical energy is used by an electric light, it is converted into light energy and heat energy. The electrical current passes through a filament or diode in the light bulb, causing it to heat up and produce light as a result of incandescence or electroluminescence. This conversion of electrical energy into light and heat allows the light bulb to illuminate its surroundings.
No, resistors do not store energy. They dissipate electrical energy in the form of heat when current passes through them.
When current passes through a resistor, electrical energy is converted into heat energy, which causes the resistor to heat up. This process is known as Joule heating.
When an electrical current passes through a bulb, the electrons in the filament (usually made of tungsten) gain energy and move to higher energy levels. They then release this energy in the form of light and heat, causing the bulb to glow. This process is called incandescence.
When electrical energy passes through a household device like a blender or a toaster, it is converted into other forms of energy. In the case of a toaster, electrical energy is converted to heat to toast bread. In a blender, electrical energy is converted to mechanical energy to blend food.
nothing happens
it stays there. the electricity travels back and forth through the filament until you turn the lighbulb off.
A motor. If electricity passes through it, the motor rotates(kinetic/potential energy)
A motor. If electricity passes through it, the motor rotates(kinetic/potential energy)
It will burn out.
When electrical energy is used by an electric light, it is converted into light energy and heat energy. The electrical current passes through a filament or diode in the light bulb, causing it to heat up and produce light as a result of incandescence or electroluminescence. This conversion of electrical energy into light and heat allows the light bulb to illuminate its surroundings.
No, resistors do not store energy. They dissipate electrical energy in the form of heat when current passes through them.
When current passes through a resistor, electrical energy is converted into heat energy, which causes the resistor to heat up. This process is known as Joule heating.
When an electrical current passes through a bulb, the electrons in the filament (usually made of tungsten) gain energy and move to higher energy levels. They then release this energy in the form of light and heat, causing the bulb to glow. This process is called incandescence.
A lamp converts electrical energy into light energy through a process called incandescence or fluorescence. The electrical current passes through a filament or gas-filled tube, causing it to emit light.
The voltage can either increase, decrease, or remain constant as it passes through an electrical object, depending on the properties and configuration of the object. For example, in a resistor, voltage typically decreases as energy is converted to heat, whereas in a transformer, voltage can be stepped up or down depending on the turns ratio of the coils.