Because it does! There's no answer to that question, I've been voted best scientist in Switzerland. And funny enough, I studied that for 10 years. I realized that there is no answer to it. Strang huh?
The speed at which a solid dissolves in a liquid depends on factors such as the surface area of the solid, the temperature of the liquid, and the stirring/agitation of the mixture. Generally, smaller particles of solid will dissolve faster due to increased surface area for interaction. Additionally, higher temperatures and increased agitation can also speed up the dissolution process.
Some examples of gases in solid solutions include hydrogen dissolved in metals like palladium or titanium, and carbon dioxide dissolved in minerals like calcite or dolomite. These gases can be trapped within the crystal structure of the solid at certain conditions.
Usually it's because the particles are too tightly compacted and have no room to move around as liuqids or gases do.
No, molecule movement is greatest in gases, followed by liquids, and then solids. In a solid, molecules are tightly packed and vibrate in fixed positions, whereas in gases, molecules move freely and rapidly.
Saturated solution is the ideal type of solution. The other is unsaturated, which is less saturated than what the solvent (water, liquid etc.), and it can dilute. The last one is supersaturated which mean the solution contains more solute (solid materials).
Solid - Particles vibrate and rotate about a fixed position and do not diffuse measurably Liquid - Particles move freely in all directions slowly and diffuse slowly Gas - Particles move freely in all directions rapidly and diffuse rapidly
If the solvent is a gas, only gases are dissolved under a given set of conditions. If the solvent is a liquid, then gases, liquids, and solids can be dissolved.
The speed at which a solid dissolves in a liquid depends on factors such as the surface area of the solid, the temperature of the liquid, and the stirring/agitation of the mixture. Generally, smaller particles of solid will dissolve faster due to increased surface area for interaction. Additionally, higher temperatures and increased agitation can also speed up the dissolution process.
Some examples of gases in solid solutions include hydrogen dissolved in metals like palladium or titanium, and carbon dioxide dissolved in minerals like calcite or dolomite. These gases can be trapped within the crystal structure of the solid at certain conditions.
Usually it's because the particles are too tightly compacted and have no room to move around as liuqids or gases do.
No, molecule movement is greatest in gases, followed by liquids, and then solids. In a solid, molecules are tightly packed and vibrate in fixed positions, whereas in gases, molecules move freely and rapidly.
no
sublimation
The moistness of the alveoli allows for exchange of gases. This is the primary function of the alveoli, and the lungs. Gases can dissolve in water, but they can not dissolve in dry solid material. If the alveoli were dry, oxygen could not diffuse into the blood and carbon dioxide could not diffuse out. Such a person would suffocate.
A mechanical mixture made up of solids and gases consists of solid particles dispersed in a gas. The solid particles are not dissolved in the gas but are simply mixed together, such as dust particles in the air.
A solid that can dissolve is called soluble. A solid that has dissolved is called a solute.
1. gaseous solution- includes gases or vapors dissolved in one another.two or more gases can form a solution. Air is an example of a gaseous solution. When dry is made up of oxygen gas dissolved in nitrogen gas.2. liquid solution-contain a liquid solvent in which gas, liquid, or solid is dissolved. Water is the most common liquid solution. Many things can be dissolved in it. Table salt is an example of a solid dissolved in a liquid. A liquid and a gas can also be dissolved in a liquid solution.3. A solid solution-is a mixture of solids spread equally throughout one another. Metal is an example of a solid solution at room temperature.different kinds of solution