Electromagnetic Waves.
Electromagnetic Waves.
The answer is electromagnetic waves.
Many properties of electronmagnetic waves can be explained by a wave model. However, some properties can be explained by a particle model.
soft, electrical and heat insulator
Electromagnetic waves are transverse (unpolarized or polarized) or circularly polarized waves that have some electrical properties and some magnetic properties. An electromagnetic wave consists of changing electric and magnetic fields. The repeated cyclic transfer of energy from the electric field (weakening it) to the magnetic field (strengthening it) until the electric field is gone, then from the magnetic field (weakening it) to the electric field (strengthening it) until the magnetic field is gone every cycle is the process by which electromagnetic waves propagate without requiring a medium (and is described in Maxwell's Equations).
Microphones will convert sound waves into electrical signals. An ear (i..e human ear) will also convert sound waves into electrical signals.
A fuzzy crackling sound will be heard because some of the electrical waves are still being transformed into sound waves.
Examples of the characteristics of matter: state of matter, density, radioactivity, thermal properties, electrical properties, optical properties, chemical composition, etc.
Electromagnetic waves are transverse (unpolarized or polarized) or circularly polarized waves that have some electrical properties and some magnetic properties. An electromagnetic wave consists of changing electric and magnetic fields. The repeated cyclic transfer of energy from the electric field (weakening it) to the magnetic field (strengthening it) until the electric field is gone, then from the magnetic field (weakening it) to the electric field (strengthening it) until the magnetic field is gone every cycle is the process by which electromagnetic waves propagate without requiring a medium (and is described in Maxwell's Equations).
A microphones sole function is to convert analogue air pressure waves into equivalent electrical waves for the purpose of recording or converting to digital those electrical waves. Some have minor additional functions such as low pass filter's, preamps, and spit balls (to prevent cymbalism and puffing).
Metalloids have some properties similar to properties of non metals; metalloids have bad thermal and electrical conductivity, they are brittle, soft etc.
Not very well, because they're different types of waves. They have some similar properties, but water waves are transverse waves (the water goes up and down, perpendicular to the direction of travel) and sound waves are longitudinal waves (the air vibrates parallel to the direction of travel).