Motion Energy

Kinetic energy supplies about 92% of electricity worldwide

Explain Motion energy

Motion energy is a term used to describe the combination of an object’s kinetic energy (motion) and its potential energy (stored position or configuration) also referred to as Mechanical energy. When an object is in motion, it possesses kinetic energy. It may also possess potential energy depending on its situation (for example, an object raised above the ground has gravitational potential energy). The total of these two types of energy is sometimes referred to as ‘motion energy’ and is measured in Joules (J).

Can motion generate electricity?

Yes. Motion can be used to generate electricity from any movement, this is because motion is kinetic energy.

An example of Motion energy?

Converting motion energy from ocean waves provides a natural renewable energy source.

How it works

Movement in any direction causes oscillation within the Active Kinetic 1 generator, inducing an electromagnetic field and generating an electric current.

What makes this different?

Instead of rotation, the Active Kinetic 1 generator uses a frictionless vibrating or oscillating mechanism to generate electricity, conserving momentum through linear motion.

What is motion energy?

Simple Explanation

Water in a glass continues to move after the glass stops moving due to inertia.

Basic example of motion energy:

Both the water in the glass and the Active Kinetic 1 devices initially receive motion energy. When the external force is removed (stopping the glass or releasing the AK1 device), the objects themselves become stationary. However, due to inertia, motion continues within both systems: the water continues to slosh within the glass, and the magnets continue to oscillate within the cradle. This continued internal movement demonstrates the presence of motion energy.

Motion Energy = Electricity

Motion energy, such as vibrations or oscillations harness from renewable sources can be converted into electricity using Active Kinetic 1 electromagnetic induction generators. The cost is so low and the sources are so abundant it could be considered as free electricity.

Motion energy is present in moving objects. However, in Active Kinetic 1 generators, this motion energy is not simply conserved as the object moves; instead, it is transformed. While it’s true that when an object slows down, it has less motion energy, the Active Kinetic 1 generator uses this change in motion to its advantage. Motion within the generator, rather than simply being lost, provides displacement of electrons, causing electromagnetic induction. This induction then generates electrical energy, effectively converting the initial motion energy into a different form.

Explain using Motion energy

While “motion energy” and “kinetic energy” are often used interchangeably. In this specific scenario, “motion energy” seems to fit better because it emphasises the presence of motion without necessarily requiring precise quantification.

The initial motion energy occurs when an external force is applied and when the force is removed, the object as a whole become stationary. However, inertia causes motion to persist within each system:

Like water in the glass: The water’s inertia causes sloshing within the confines of the stationary glass. This sloshing is motion energy relative to the glass.
Active Magnetic cradle: The inertia causes the magnets motion energy within the device.

The Crucial Difference: How the Motion is Sustained

This is where the two systems diverge significantly:

Like water in the glass: The water’s internal sloshing motion quickly dissipated due to friction
Active Magnetic cradle: The magnets’ internal motion (oscillation) is sustained for a much longer period because the system involves a conversion of motion energy and potential energy

How does Kinetic electricity work ?

Basic: A kinetic force provides input movement to the Active Kinetic 1 energy harvesting machines. The machine stores energy released by the kinetic force and continues absorbing energy until the given energy falls below activation energy levels to convert electricity.

Technical: Kinetic forces or activate kinematic movements provide motion energy which converts to electricity. This type of Motion energy is useful for storing energy from even subtle movements.

How much movement is required?

Motion energy can operate from extremely low movement forces to store energy. The required activation energy in physics can demonstrate extremely low kinetic energy, which transfers movement and converts it into stored motion energy.

Can Motion energy generate electricity?

Yes Active Kinetic 1 motion energy machines overcome obstacle such as mechanical impedance by directly converting kinetic movement in to electricity The traditional electric generators used today struggle with mechanical impedance, hence less efficient in converting kinetic movement into electricity.

Why is this an improved method?

New technologies such as Zero Energy Devices and new renewables will be designed using Active Kinetic 1 motion energy machines that offer new opportunity.

For example: A solar panel requires far more flat area to operate, whereas the motion mechanism can be stacked. Each layer provides more power. In many untapped environments Active Kinetic 1 systems are capable of generating electricity.

Low mechanical impedance provides high efficiency and ultimately reducing energy loss which impacts the cost and performance to transfer energy,

The new motion energy devices requires a small amounts of movement to generate electricity.