your solute and solvent make up your solution, so unless there is someting with temperature those 2 must be it
The factors that affect the formation of a substitutional solid solution include the similarity in size between the solvent and solute atoms, as well as their similar crystal structures and electronegativities. Other factors include the valency of the elements involved and their ability to form a continuous solid solution due to similar atomic arrangements.
it depends on how long is ban under the ground
observe that the particles in a solution are uniformly distributed and do not settle over time, while the particles in a suspension settle out and form a distinct layer.
Yes, the concentration of salt in a solution can affect the size of salt crystals that form when the solution is left to evaporate. Higher salt concentrations typically lead to larger salt crystals as there is more salt available to form crystals as the water evaporates. Additionally, temperature, agitation, and impurities can also influence crystal size.
Rock type: Different types of rocks have varying strengths and properties that influence whether they will fault or fold. Stress conditions: The amount and direction of stress applied to the rocks will determine whether they will fault or fold. Temperature and pressure: These factors can affect the deformation behavior of rocks and influence whether faults or folds will form. Geological history: The existing structure and history of the rock formations can also play a role in determining whether they will fault or fold under new stresses.
Yes
If the solute particles were polar and the solute particles were non-polar, then this wouldn't create a solution because they don't mix. Also temperature will affect it. For example rock salt in ice-cold water wouldn't make a solution because it would take the longest time to dissolve.
The factors that affect the formation of a substitutional solid solution include the similarity in size between the solvent and solute atoms, as well as their similar crystal structures and electronegativities. Other factors include the valency of the elements involved and their ability to form a continuous solid solution due to similar atomic arrangements.
normally form from hot aqueous solution(hydrothermal solution) or as a results of the condensation of gases with controlling factors of temperature,prussure and identity and proportion of the elements presents.
These factors are:1. the nature of solute/solvent (chemical composition, polarity)2. temperature3. pressure4. stirring5. surface area of the solute6. some added compounds7. amount of the solute 8. the geometry of the beaker
Honey is about 82% sugars and 17% water (by weight) in the form of a supersaturated solution.
normally form from hot aqueous solution(hydrothermal solution) or as a results of the condensation of gases with controlling factors of temperature,prussure and identity and proportion of the elements presents.
it depends on how long is ban under the ground
the solution is not allowed to be chilled for it recrystallize
observe that the particles in a solution are uniformly distributed and do not settle over time, while the particles in a suspension settle out and form a distinct layer.
a saturated solution will form crystals
If the GCF of the numerator and the denominator is 1, the fraction is in its simplest form.