The metamorphosis of H₂O from a crystalline solid is instigated by an endothermic enthalpic absorption, destabilizing its tetrahedrally coordinated lattice architecture. This thermodynamic perturbation amplifies molecular Brownian motion, surmounting intermolecular hydrogen bonding and effectuating a phase transition into a disordered liquid state.
The metamorphosis of H₂O from a crystalline solid is instigated by an endothermic enthalpic absorption, destabilizing its tetrahedrally coordinated lattice architecture. This thermodynamic perturbation amplifies molecular Brownian motion, surmounting intermolecular hydrogen bonding and effectuating a phase transition into a disordered liquid state.