noun a condition in which a system is stable and unchanging
adjective not easily disturbed or changed
In engineering, steady state analysis is used to study systems that have reached a stable operating condition, with input and output rates balanced.
In economics, steady state refers to a state of equilibrium where key economic variables such as output, consumption, and investment remain constant over time.
In chemistry, steady state is used to describe a reaction where the rate of formation of products is equal to the rate of consumption of reactants, resulting in a constant concentration of intermediates.
In physics, steady state refers to a situation in which a system is in a stable condition, with certain variables remaining constant over time.
In biology, steady state is often used in the context of homeostasis, where an organism maintains a stable internal environment despite external changes.
In writing, 'steady state' may refer to a consistent flow of ideas or a balanced tone throughout a piece of work.
Psychologists may use 'steady state' to describe a stable mental or emotional state in a patient.
Engineers may use 'steady state' to refer to a system that has reached a constant operating condition.
Economists may use 'steady state' to describe a long-term equilibrium in an economic model.
Biologists may use 'steady state' to refer to a stable population size or growth rate in an ecosystem.
Chemists may use 'steady state' to describe a reaction where the concentrations of reactants and products remain constant over time.
Physicists may use 'steady state' to refer to a system in which all variables remain constant over time.
Statisticians may use 'steady state' to describe a situation where a process has settled into a predictable pattern.
Medical doctors may use 'steady state' to describe a patient's condition when it is stable and not deteriorating.
Accountants may use 'steady state' to refer to a company's financial condition when it is consistent and not experiencing significant changes.