The form of energy represented by x when an electric fan is turned on is electrical energy. This is the energy that powers the fan and is converted into mechanical energy, which allows the fan blades to rotate and create airflow.
In an electric fan, electrical energy is converted into mechanical energy to produce the spinning motion of the blades. Some electrical energy is also converted into heat energy due to friction in the moving parts of the fan.
When a fan is not on, it has potential energy stored in its components like the motor and blades. This potential energy is in the form of chemical energy, as it is stored in the materials that make up the fan.
Energy in an electric fan is stored in the form of electrical energy in the batteries or power source that powers the fan. When the fan is turned on, this electrical energy is converted into kinetic energy, which is the energy of motion that powers the fan blades to rotate and create airflow.
Electric energy to kitenic energy
The form of energy represented by x when an electric fan is turned on is electrical energy. This is the energy that powers the fan and is converted into mechanical energy, which allows the fan blades to rotate and create airflow.
In an electric fan, electrical energy is converted into mechanical energy to produce the spinning motion of the blades. Some electrical energy is also converted into heat energy due to friction in the moving parts of the fan.
Mechanical energy is formed. Since fan comprises of both potential and kinetic energy.
electrical energy
mechanical energy
When a fan is not on, it has potential energy stored in its components like the motor and blades. This potential energy is in the form of chemical energy, as it is stored in the materials that make up the fan.
Energy in an electric fan is stored in the form of electrical energy in the batteries or power source that powers the fan. When the fan is turned on, this electrical energy is converted into kinetic energy, which is the energy of motion that powers the fan blades to rotate and create airflow.
Electric energy to kitenic energy
mechanical, sound, and sometimes thermal
No, an electric fan does not produce energy. It uses electrical energy to power the motor that spins the fan blades, converting the electrical energy into kinetic energy which moves the air.
Mechanical energy is produced when an electric fan is used. The electrical energy from the power source is converted into mechanical energy by the motor, causing the fan blades to rotate and move air. This mechanical energy is then transferred to the air in the form of kinetic energy.
An electric fan converts electrical energy into kinetic energy to produce air movement.