adjective relating to or caused by electric charges that are not in motion
Understanding electrostatics is essential in environmental science for studying atmospheric electricity and pollution control devices.
Electrostatics is important in engineering for applications such as electrostatic precipitators in air pollution control.
In chemistry, electrostatic interactions play a crucial role in determining the structure and properties of molecules.
In the field of physics, electrostatics refers to the study of electric charges at rest.
Electrostatic forces are significant in materials science for phenomena like triboelectric charging and surface adhesion.
In the field of science fiction writing, authors may use the concept of electrostatic forces to create futuristic technologies or plot devices.
Psychologists may study the effects of electrostatic fields on human behavior and mental health.
Engineers may work with electrostatic discharge (ESD) to prevent damage to electronic components during manufacturing or handling.
Physicists may study electrostatic phenomena such as the behavior of charged particles in electric fields.
Electricians may use knowledge of electrostatic principles to safely work with high voltage equipment.
Chemists may study electrostatic interactions between molecules to understand chemical bonding and reactions.
Biologists may study the role of electrostatic forces in protein folding and other biological processes.
Materials scientists may investigate the effects of electrostatic charge on the properties of materials.
Environmental scientists may study the impact of electrostatic pollution on ecosystems and human health.
Forensic scientists may use electrostatic techniques to analyze evidence such as fingerprints or fibers.