Energy transformation in a motor involves converting electrical energy into mechanical energy. When an electric current is passed through the coils in the motor, it creates a magnetic field that interacts with the motor's components to produce rotational motion. This process allows the motor to drive mechanical devices or equipment.
The energy transformation in a blender involves converting electrical energy into mechanical energy to power the blades. The mechanical energy generated by the motor then transforms into kinetic energy as the blades rotate, which helps to blend or mix the ingredients in the container.
The energy transformation occurring when a phone vibrates involves electrical energy being converted to kinetic energy. The phone's vibrator motor is powered by electricity and produces mechanical vibrations, causing the phone to vibrate.
The electrical energy from the battery is converted into mechanical energy by the motor inside the motor mouse. This mechanical energy allows the motor mouse to move and perform its functions.
An electric motor converts electrical energy into mechanical energy by using electromagnetic fields to create rotational motion. This transformation allows the motor to power various machines and devices by converting electricity into physical work.
A useful energy transformation in a vacuum cleaner is when electrical energy is converted into mechanical energy to power the motor that creates suction for collecting dust and debris. This mechanical energy is then transformed into kinetic energy as the air and particles are sucked into the vacuum cleaner's bag or canister.
Usually electrical energy is transformed into mechanical or kinetic energy
Electro-magnetic into kinetic.
Electric motor is an example of conversion of energy. Electric generator is another example.
The energy transformation in a blender involves converting electrical energy into mechanical energy to power the blades. The mechanical energy generated by the motor then transforms into kinetic energy as the blades rotate, which helps to blend or mix the ingredients in the container.
The energy transformation occurring when a phone vibrates involves electrical energy being converted to kinetic energy. The phone's vibrator motor is powered by electricity and produces mechanical vibrations, causing the phone to vibrate.
The word motor is used sometimes to refer to electrical motors or to internal combustion engines. In an internal combustion engine, like the engine in an automobile, the gasoline is a source of chemical energy. When the car is moving it has kinetic energy. One see then an example of the transformation of chemical to kinetic energy. If the car is driving up a hill, then there is an increase in potential energy due to the action of the motor's transformation of the chemical energy. In the process, the chemical energy is released in combustion in the cylinders. Combustion creates heat energy, so the chemical energy has been transformed into heat energy. It is the heat energy that is then transformed into kinetic energy or potential energy. In an electrical motor, the input energy is electrical. The electrical forces created inside the motor do some work to make the motor turn. If the motor turns freely, then it has only kinetic energy and the electrical energy has been converted to the kinetic energy of the rotating motor. If the motor serves to apply force (or torque) to some ofther device, then the motor is doing work and transforming its input electrical energy into some other form of energy that depends on what work the motor does. (If the motor drives a car then it transforms to kinetic energy or if it lifts a weight it transforms into potential energy.) Note that in both cases, the motor is not 100% efficient in doing work and converting energy so some heat energy must be produced in both instances. Note also that the motor may be said to produce mechanical energy which is a little vague and only means energy transformation that is seen as motion and not specifically kinetic or potential.
The electrical energy from the battery is converted into mechanical energy by the motor inside the motor mouse. This mechanical energy allows the motor mouse to move and perform its functions.
An electric motor converts electrical energy into mechanical energy by using electromagnetic fields to create rotational motion. This transformation allows the motor to power various machines and devices by converting electricity into physical work.
In any energy transformation energy is preserved.
A useful energy transformation in a vacuum cleaner is when electrical energy is converted into mechanical energy to power the motor that creates suction for collecting dust and debris. This mechanical energy is then transformed into kinetic energy as the air and particles are sucked into the vacuum cleaner's bag or canister.
A change from one form of energy into another is called energy transformation.
An example of electrical energy transformation is when a vacuum cleaner converts electrical energy into mechanical energy to power the motor that rotates the fan and creates suction for cleaning.