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Ion
A homogeneous mixture is a substance that is uniform in composition. Solutions are examples of homogeneous mixtures. A heterogeneous mixture is a mixture in which the composition is easily identified, as there are two or more phases present. Suspensions are examples of heterogeneous mixtures. Particle size distinguishes homogeneous solutions from other heterogeneous mixtures. Solutions have particles which are the size of atoms or molecules - too small to be seen. In contrast a suspension is a heterogeneous mixture of larger particles. These particles are visible and will settle out on standing. Corn oil, white vinegar a saturated sugar solution is homogeneous since only a colorless liquid is observed. Air with no dust is also a homogeneous. Beach sand is heterogeneous since you can see different colored particles. Vinegar and oil salad dressing is heterogeneous since two liquid layers are present, as well as solids. Air with clouds is heterogeneous, as the clouds contain tiny droplets of liquid water.
The individual particles of an ionic crystal are positive and negative ions.
In true solutions the solute dissolves completely in the solvent at the molecular level, meaning that the solute particles are present at their molecular size - well below the size of a particle required to exhibit light scattering dispersion (the Tyndall effect).
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These can not be calculated without knowing what the following solutions of strong electrolytes are. When this information is given the answers will be able to be known.
The ones present in you blood - at the concentration in your blood.
Important electrolytes in the human body are potassium, sodium, and calcium.
Particles vibrate because of heat being present
present and past particles for play work hit speak?
Hydrogen is present in the greatest number of atoms, if that is what is meant by "particles" in the question.
Iodine (or a iodide) can be used in antiseptic solutions.
In water? If so - salt solution - the fllowing hydrated ions - H+, OH-, Na+, Cl- plus molecular H2O. Sugar solution - hydrated sugar molecules, molecular H2O and H+ and OH- hydrated ions
Hydrogen
molecules.
Ion