In an aqueous solution the solvent is water.
In an aqueous solution the solvent is water.
One was dextrorotatory when dissolved in aqueous solution, the other was levorotatory.
When sodium chloride is melted, the orderly crystal structure breaks down. If a voltage is applied across this molten mass, cations migrate freely to one electrode and anions migrate to the other. This movement of ions allows electric current to flow between the electrodes through an external wire. For a similar reason, ionic compounds also conduct electric current if they are dissolved in water. When dissolved, the ions are free to move about in the solution.
Adding more solute to a saturated solution causes the solution to become supersaturated. In other words, the solvent does not completely mix with the solute.
Often times, the chemicals used for the chemical reaction are dissolved in water to form an aqueous solution. The solutions are then used as the reactants for the reactions. It is done this way because being in solution makes a reaction go more quickly than if the solutes are just mixed together in a test tube or other container.
In an aqueous solution the solvent is water.
A non-electrolyte solution is one in which there are no charged particles dissolved in the solution.For example:Sodium chloride will form an electrolyte solution in water because the sodium ions and chloride ions dissociate when dissolved in water.NaCl(s) + H2O --> Na(aq)++ Cl(aq)-Sucrose will form a non-electrolyte solution in water because no charged particles will dissociate in the solution.C12H22O11(s) + H2O --> C12H22O11(aq)The sucrose is not chemically changed, it's just dissolved in the water, forming a sucrose solution.*(aq) means aqueous (dissolved in water)
If you add an aqueous solution of sodium sulfate (Na2SO4) to an aqueous solution of hydrochloric acid (HCl), there is NO REACTION. So, yes, it is a physical change because you made solutions of the two reagents, but for no other reason.
No; many aqueous solutions can conduct electricity because the ions (positive and negative particles) within the solution can easily carry charge through the solution. Also, because an aqueous solution is a liquid, movement of the electricity carried by charged particles is easier since particles can slide past each other (unlike in a solid). Yet they are close enough together to transfer the charge from particle to particle (unlike in a gas).
Basic solutions are solutions that have more than a 1E-7 concentration of hydroxide ion. Thus, solutions with "extra" hydroxide ions are basic. On the other hand, solutions with extra hydrogen (hydronium) ions are acidic.
Solvent and solute. The solute is the substance added that makes the solution what it is (for example, solid table salt), while the solvent is the liquid to which the solute is added (for example, water or an alcohol). The majority of solutions we encounter regularly are aqueous, meaning that the solvent is water. In aqueous solutions, if the solute is a salt, the salt will dissociate into its ions, with water molecules separating them from each other.
There can be an aqueous solution with methanol in it. Methanol is a pure substance, so if not mixed with other substances it is a compound.
If the lines cross then there is one solution. If they are on top of each other then there are infinite solutions. If they are parallel then there are no solutions.
sometimes. All solutions have at least one solute and one solvent. While water often does act as a solvent, some solutions have other solvents. Solutions where the solute is dissolved in water belong to a special group of solutions called aqueous solutions.
No, mass is not the reason why solutions don't mix. Solutions will not mix if they are immiscible, which means that the molecules of the two solutions do not interact with each other. This can be due to the following reasons: Different physical states: One solution may be a gas and the other a liquid, so they will not mix together. Chemical incompatibility: The molecules of one solution may not interact or be attracted to the molecules of the other solution, so they will not mix. Different densities: Solutions with different densities will not mix because the more dense solution will settle at the bottom.So, mass is not the reason why solutions don't mix; it is the chemical and physical properties of the solutions that determine if they are miscible or not.
One was dextrorotatory when dissolved in aqueous solution, the other was levorotatory.
No, because other solutions are not liquid