For all plato users it's D. exothermic process, which releases energy(:
When a solid solute dissolves in a liquid solvent, the composition of the solid remains unchanged, as only the physical state changes. The individual particles of the solid separate and disperse uniformly throughout the liquid, forming a homogeneous solution.
the molecules of liquids have large intermolecular spaces between them.when a solid(especially salts) is poured in liquid,the molecules of the solid occupy these intermolecular space of the liquid. This is the reason why a solid dissolves in a liquid
dissiolve the solute in the solvent and u have a solution.
Less than the energy released as attractions form between solute and solvent particles. This is the amount of energy required to break the attraction among the solute particles and among the solvents.
When particles are dissolved in a solvent, they disperse evenly throughout the solvent and become surrounded by solvent molecules. This results in the particles being separated from each other and mixed uniformly throughout the solvent, forming a solution.
For a solute to dissolve in a particular solvent, the intermolecular forces between the solute and solvent particles must be stronger than the forces holding the solute particles together. This allows the solute molecules to separate and become surrounded by solvent molecules, forming a homogenous mixture. Temperature, pressure, and the nature of the solute-solvent interactions also play a role in determining solubility.
Yes, the attractions between solute particles break as the solid solute dissolves in a liquid solvent. The solvent molecules surround the solute particles, breaking the intermolecular forces holding the solute together, allowing the solute to disperse evenly throughout the solvent.
When a solid solute dissolves in a liquid solvent, the composition of the solid remains unchanged, as only the physical state changes. The individual particles of the solid separate and disperse uniformly throughout the liquid, forming a homogeneous solution.
This process is called solvation. Basically, it is a chemical process in which there is intermolecular attraction or combining of solvent molecules with the molecules or ions of a solute.
the molecules of liquids have large intermolecular spaces between them.when a solid(especially salts) is poured in liquid,the molecules of the solid occupy these intermolecular space of the liquid. This is the reason why a solid dissolves in a liquid
dissiolve the solute in the solvent and u have a solution.
Less than the energy released as attractions form between solute and solvent particles. This is the amount of energy required to break the attraction among the solute particles and among the solvents.
When particles are dissolved in a solvent, they disperse evenly throughout the solvent and become surrounded by solvent molecules. This results in the particles being separated from each other and mixed uniformly throughout the solvent, forming a solution.
A solvent is a liquid that dissolves a solute, forming a solution. This process occurs when the solvent molecules surround and interact with the solute particles, dispersing them evenly throughout the solvent.
Soluble substances dissolve in a solvent, forming a homogeneous mixture. Insoluble substances do not dissolve in a solvent, leading to a heterogeneous mixture where the solute particles remain suspended in the solvent.
When a solid dissolves in a solvent, the particles of the solid break apart and disperse evenly throughout the solvent. This process involves the separation of the solvent molecules and the solute particles. The solute particles become surrounded by solvent molecules, forming a homogeneous mixture known as a solution.
Solute particles being attracted to solvent particles facilitates the process of dissolving by overcoming intermolecular forces between solute particles, and between solvent particles. This attraction helps the solute particles break apart and disperse evenly in the solvent, creating a homogeneous solution. If there is no attraction between solute and solvent particles, the solute would not dissolve effectively, leading to poor solubility and the formation of separate phases.