The movement of energy through substances in longitudinal waves is sound. :)
sound
In longitudinal waves, energy is transferred in the form of mechanical energy. This energy is manifested through the compression and rarefaction of the medium that the wave travels through. Longitudinal waves are typically associated with sound waves, where energy is propagated through the compression and expansion of air molecules.
In a longitudinal wave, the energy is primarily in the form of mechanical energy, which is the energy associated with the motion and position of an object. This energy is transferred through the compression and rarefaction of the medium the wave is traveling through.
The energy of a longitudinal wave is related to its amplitude, frequency, and wavelength, rather than its direction of oscillation. Longitudinal waves can have high energy if they have a large amplitude and high frequency, but the presence of longitudinal motion alone does not determine the energy of the wave.
Chemical energy is energy stored in the bonds of atoms and molecules. Mechanical energy is energy stored in objects by tension. Nuclear energy is energy stored in the nucleus of an atom. Gravitational energy is energy stored in an objects height. Radiant energy is electromagnetic energy that travels in transverse waves. Thermal energy is the vibration and movement of atoms and molecules within a substance. Motion energy is energy stored in the movement of objects. Sound is the movement of energy through substances in longitudinal waves. Electrical energy is energy from electrons moving through a conductive material.
It is sound waves
No, it is totally unrelated to that.
sound
kinetic energy kinetic energy (joule) = ½ × mass (kilogram) × speed2 ((metre/second) 2, (m/s)2) and i guess sound energy - the movement of energy through substances in longitudinal (compression/rarefaction) waves.
passive transport
In longitudinal waves, energy is transferred in the form of mechanical energy. This energy is manifested through the compression and rarefaction of the medium that the wave travels through. Longitudinal waves are typically associated with sound waves, where energy is propagated through the compression and expansion of air molecules.
In a longitudinal wave, the energy is primarily in the form of mechanical energy, which is the energy associated with the motion and position of an object. This energy is transferred through the compression and rarefaction of the medium the wave is traveling through.
The energy of a longitudinal wave is related to its amplitude, frequency, and wavelength, rather than its direction of oscillation. Longitudinal waves can have high energy if they have a large amplitude and high frequency, but the presence of longitudinal motion alone does not determine the energy of the wave.
Kinetic energy
Energy can be stored in substances through chemical bonds, such as in the form of potential energy. When substances undergo chemical reactions, these bonds can be broken or formed, releasing or absorbing energy. Additionally, energy can be stored in substances in the form of kinetic energy, such as in the movement of particles within a substance.
Chemical energy is energy stored in the bonds of atoms and molecules. Mechanical energy is energy stored in objects by tension. Nuclear energy is energy stored in the nucleus of an atom. Gravitational energy is energy stored in an objects height. Radiant energy is electromagnetic energy that travels in transverse waves. Thermal energy is the vibration and movement of atoms and molecules within a substance. Motion energy is energy stored in the movement of objects. Sound is the movement of energy through substances in longitudinal waves. Electrical energy is energy from electrons moving through a conductive material.
Longitudinal waves transfer mechanical energy through compressions and rarefactions of the medium particles in the direction of wave propagation.