Whatever winds the tool up - usually energy stored in your muscles.
The types of potential energy is stored in a clockwork toys are type of potential energy is stored in a clockwork toy
The battery "is" not energy; it's a battery. The battery has chemical energy stored. When moving a toy, the battery releases electrical energy; i.e., some of the chemical energy in the battery is converted to electrical energy.
The mechanical energy is stored in the spring as potential energy within the pullback toy and when you release it, it gets converted into kinetic energy. Hence cycle is Mechanical --- Spring (Potential)--- Kinetic
Energy that is stored in the nucleus of an atom is called Atomic Energy or nuclear energy.
I don't believe there is a special word for stored energy, I would just call it that, "stored energy". Energy of position is called potential energy. For example, if you lift a weight against the force of gravitation, the energy you transfer to the object is stored as gravitational potential energy. At a higher position, it has more of this energy than when it is at a low position.
When a wind-up toy is released, the potential energy stored in the compressed spring is converted into kinetic energy, causing the toy's moving parts to start moving as the spring unwinds. This kinetic energy drives the motion of the toy until the energy in the spring is fully depleted.
The types of potential energy is stored in a clockwork toys are type of potential energy is stored in a clockwork toy
Depends what type it is. If operated by a spring, it is elastic energy due to putting energy into the spring by mechanical winding. If operated by a battery it is the chemical energy stored in the battery.
A windup toy typically uses a combination of a wheel and axle for movement, gears for transferring rotational motion, and a spring for storing potential energy that is released as the toy walks or moves. These components make it a complex machine rather than a simple one.
The energy stored in the rubber band of the rolling toy is elastic potential energy. This energy is stored as the rubber band is stretched and can be released to propel the toy forward when it is let go.
A wind up toy uses mechanical energy. When you wind up the toy, you are storing potential energy in a spring or other mechanism. As the spring unwinds, it releases this stored energy, which is then converted into kinetic energy that powers the toy's movement.
A wind-up toy uses mechanical energy stored within a spring. When the toy is wound up, potential energy is stored in the spring, and as it unwinds, the spring's potential energy is converted into mechanical energy that powers the toy's movement.
The energy transformation in a wind-up toy involves converting potential energy stored in the wound-up spring into kinetic energy as the toy moves. The potential energy stored in the spring is released as the spring unwinds, causing the toy to move.
The toy is moving due to mechanical energy, which is the energy associated with the motion and position of the toy's parts. When the toy is wound up or compressed, potential energy is stored in it, which is converted to kinetic energy when the toy moves.
When a wind-up toy is released, the energy stored in the compressed spring is converted into kinetic energy, causing the toy to move. This movement occurs as the spring unwinds and transfers its stored energy into the toy's mechanical components.
The energy is provided by your muscles, and stored in a spring.The energy is provided by your muscles, and stored in a spring.The energy is provided by your muscles, and stored in a spring.The energy is provided by your muscles, and stored in a spring.
A wound-up toy has potential energy, which is stored energy that can be released when the toy is set in motion. Once the toy is released, this potential energy is converted to kinetic energy, which is the energy of motion.