CFT splitting
Inert ligands are stable ligands that do not easily dissociate from the metal center, while labile ligands are more reactive and can readily dissociate from the metal center. Inert ligands typically form stable and kinetically inert complexes, while labile ligands can undergo substitution reactions more easily.
Non inert complexes are coordination complexes that exhibit reactivity with their ligands or the surrounding environment. These complexes can undergo ligand exchange reactions, isomerization, or redox processes due to their dynamic nature. Examples include labile complexes that readily exchange ligands and inert complexes that are stable and do not readily undergo reactions.
Labile components are organic materials in the soil that decompose quickly, such as fresh plant residues. Refractory components are organic materials that decompose slowly, like lignin and humus. The distinction between labile and refractory components is important for understanding nutrient cycling in ecosystems.
Carbon monoxide is not an inert gas.
Labile cells are constantly dividing and regenerating, such as skin epithelial cells. Permanent cells do not normally regenerate, such as neurons. Stable cells have a low rate of division but can regenerate under certain conditions, such as liver cells.
Inert ligands are stable ligands that do not easily dissociate from the metal center, while labile ligands are more reactive and can readily dissociate from the metal center. Inert ligands typically form stable and kinetically inert complexes, while labile ligands can undergo substitution reactions more easily.
Non inert complexes are coordination complexes that exhibit reactivity with their ligands or the surrounding environment. These complexes can undergo ligand exchange reactions, isomerization, or redox processes due to their dynamic nature. Examples include labile complexes that readily exchange ligands and inert complexes that are stable and do not readily undergo reactions.
Fluid, movable - not fixed
Labile mood refers to rapid and unpredictable changes in one's emotional state. Individuals with labile mood may experience sudden shifts in their mood and emotions without a specific trigger. This can make it challenging for them to regulate their feelings and reactions effectively.
labile
Pyrogens that are destroyed by heat.
Labile cells are cells that multiply constantly throughout an organisms life. Different types of labile cells are skin cells, gastrointestinal tract cells, and blood cells in bone marrow.
Labile components are organic materials in the soil that decompose quickly, such as fresh plant residues. Refractory components are organic materials that decompose slowly, like lignin and humus. The distinction between labile and refractory components is important for understanding nutrient cycling in ecosystems.
Labile cells are found in tissues that require constant regeneration, such as epithelial cells in skin, gastrointestinal tract, and bone marrow. These cells have a high turnover rate and are constantly dividing to replace old or damaged cells.
There are several different definitions for the word labile. The most commonly used is to have change, be open to change or to have the ability to adapt. It can also mean unstable, moderately solid or pliable.
Context clues: Labile is used as an adjective to describe disposition. Then, "...his mood would suddenly turn from joy to despondency" Mood is another word for disposition. Then, "...I never knew when..." e.g. unpredictable, easily changeable Then, "...caused me to be constantly on my guard..." These give descriptive context clues. Definition of labile: Likely to change easily; this unpredictability usually refers to mood. Example: I had such a labile personality that I could go from sadness to anger in 30 seconds.
There are two different types of outer orbital complexes. These two type of complexes are called low-spin or spin-paired complexes.