What is the Difference Between Molten and Aqueous?
🆚 Go to Comparative Table 🆚The main difference between molten and aqueous states lies in the nature of the substances and the methods by which they are obtained. Here are the key differences:
- Molten State: Molten state refers to the liquid state of materials with high melting points that are liquified by the application of heat. In this state, the substance has a high temperature and becomes thin, making it difficult to control. For example, molten sodium chloride is obtained by heating solid sodium chloride until it melts.
- Aqueous State: Aqueous state refers to the liquid state of materials that are dissolved in water to form a solution. In this state, water molecules are combined with other molecules to create a liquid. For example, sodium chloride can be dissolved in water to form an aqueous sodium chloride solution.
In summary, the molten state is achieved by applying heat to a substance with a high melting point, while the aqueous state is achieved by dissolving a substance in water. Both states involve the flowing nature of materials and can be observed in various chemical reactions and processes.
Comparative Table: Molten vs Aqueous
The main difference between molten and aqueous substances lies in the way they achieve their liquid state:
Molten | Aqueous |
---|---|
Molten substances are in the liquid state due to heat, which melts solids with high melting points. | Aqueous substances are in the liquid state because they have been dissolved in water. |
Examples of molten substances include molten salts with high boiling points, volumetric heat capacities, and high thermal conductivities. | Examples of aqueous substances include sodium chloride (table salt) dissolved in water. |
Both molten and aqueous substances share some common characteristics, such as having no shape and taking the shape of the container they are in, as well as having a flowing nature.
Read more:
- Molten vs Liquid
- Molten vs Aqueous Electrolysis
- Liquid vs Aqueous
- Melting vs Dissolving
- Molarity vs Molality
- Aqueous vs Nonaqueous Solution
- Liquid vs Solid
- Water vs Liquid
- Liquid vs Solution
- Ionic vs Metallic Solids
- Solidus vs Liquidus
- Ionic vs Molecular Solids
- Molar Solution vs Normal Solution
- Lava vs Magma
- Water vs Ice
- Fusion vs Solidification
- Sol-Gel vs Hydrothermal Method
- Liquid vs Fluid
- Mole vs Molarity