noun a lagging of an effect behind its cause, as when the change in magnetism of a body lags behind changes in the magnetic field.
In engineering, hysteresis is commonly encountered in control systems, materials science, and mechanical systems.
In physics, hysteresis refers to the lagging of effects behind their causes, such as the magnetic hysteresis in ferromagnetic materials.
Hysteresis is a key concept in materials science, particularly in the study of phase transitions and material behavior under changing conditions.
Hysteresis is important in mechanical engineering for understanding material fatigue, damping, and other dynamic behaviors.
In control systems, hysteresis is often seen in systems with backlash or deadband, leading to non-linear behavior.
In the field of materials science, writers may discuss hysteresis in the context of how a material's magnetic properties change in response to an external magnetic field.
Psychologists may use the concept of hysteresis to describe how past experiences or emotions can influence a person's current behavior or emotional state.
Engineers may encounter hysteresis when working with control systems, where they need to account for delays or non-linearities in the system's response.
Physicists often study hysteresis in the context of phase transitions or in the behavior of complex systems, such as in the field of condensed matter physics.