adjective a term used to describe a solution that contains more of the dissolved material than could be dissolved by the solvent under normal circumstances
In environmental science, supersaturation can be relevant in the context of water bodies where high levels of dissolved gases, such as oxygen or carbon dioxide, exceed the equilibrium concentration. This can impact aquatic organisms and ecosystem health.
In chemistry, supersaturated solutions contain more solute than is normally possible at a given temperature. This can lead to the formation of crystals or precipitation when the solution is disturbed.
In physics, supersaturation can refer to a state where a substance is in a metastable state, meaning it is temporarily stable but can easily transition to a more stable state with the addition of a small amount of energy.
In biology, supersaturation can refer to a condition where a solution or tissue contains a higher concentration of a substance than would normally be in equilibrium. This can have implications for processes such as gas exchange in aquatic organisms.
In materials science, supersaturation is often used to describe the state of a solid solution that contains more of a solute than would normally be possible at a given temperature and pressure.
In chemistry, a supersaturated solution is one in which more solute is dissolved than is normally possible at a given temperature. Writers may use this term metaphorically to describe a situation or storyline that is overly complex or intense.
Psychologists may use the term supersaturated to describe a state of heightened emotional arousal or overwhelming stimuli that exceeds a person's capacity to process effectively.
Chemists use the term supersaturated to describe a solution that contains more of a dissolved material than could be dissolved by the solvent under normal circumstances. This can be important in various chemical processes and reactions.
Meteorologists may use the term supersaturated to describe air that contains more water vapor than it can hold at a given temperature. This can lead to the formation of clouds, fog, or precipitation.