A solution with solvent as water is known as aqueous solution while a sloution with solvent not as a water is called non-aqueous solution
Aqueous titration: the ion to be titrated is in an aqueous solution Nonaqueous titration: the ion to be titrated is in an nonaqueous solution
solutions
The main difference between an aqueous solution and a tincture solution lies in their solvent base. Aqueous solutions are created using water as the solvent, while tincture solutions are made by dissolving substances in alcohol or a combination of alcohol and water. Aqueous solutions are commonly used for water-soluble substances, while tinctures are frequently employed for extracting and preserving the active components of plant materials. Additionally, tinctures tend to have a longer shelf life due to the preservative properties of alcohol. However, it is essential to note that the choice between an aqueous or tincture solution depends on the specific requirements of the substance being used and its intended application.
For reference - here are some definitions: * formula unit of an ionic compound - the lowest whole number ratio of the ions in an ionic compound (shows the ratio of the kinds and numbers of atoms in the compound - e.g. NaCl for sodium chloride) * precipitation reaction - reaction with two aqueous solutions that forms a solid Attempts to reword question: --> Use precipitation reaction between aqueous solutions to work out the formula unit of the ionic compound. How to do this? Will expand when I work it out.
Nitric acid and acetic acid are different substances; the chemical properties and physical properties are also different (density of the solutions, corrosiveness, chemical reactions, dissociation, etc.).
Aqueous titration: the ion to be titrated is in an aqueous solution Nonaqueous titration: the ion to be titrated is in an nonaqueous solution
A solution with solvent as water is known as aqueous solution while a sloution with solvent not as a water is called non-aqueous solution. Arhum Adnan
solutions
The main difference between an aqueous solution and a tincture solution lies in their solvent base. Aqueous solutions are created using water as the solvent, while tincture solutions are made by dissolving substances in alcohol or a combination of alcohol and water. Aqueous solutions are commonly used for water-soluble substances, while tinctures are frequently employed for extracting and preserving the active components of plant materials. Additionally, tinctures tend to have a longer shelf life due to the preservative properties of alcohol. However, it is essential to note that the choice between an aqueous or tincture solution depends on the specific requirements of the substance being used and its intended application.
a solution is a type of mixture.
A precipitation reaction contains two aqueous reactants, one aqueous product, and one solid product. A precipitation reaction will produce an insoluble product.
For reference - here are some definitions: * formula unit of an ionic compound - the lowest whole number ratio of the ions in an ionic compound (shows the ratio of the kinds and numbers of atoms in the compound - e.g. NaCl for sodium chloride) * precipitation reaction - reaction with two aqueous solutions that forms a solid Attempts to reword question: --> Use precipitation reaction between aqueous solutions to work out the formula unit of the ionic compound. How to do this? Will expand when I work it out.
Nitric acid and acetic acid are different substances; the chemical properties and physical properties are also different (density of the solutions, corrosiveness, chemical reactions, dissociation, etc.).
The are slight differences between research and problem solving. Both entail investigations to establish facts. But problem solving requires facts that amount to solutions while research may be just findings.
Sodium chloride is solid under 801 0C and liquid between 801 0C and 1 413 0C. Sodium solid may be in water solutions.
An aqueous solubility is an equilibrium partitioning of a compound between its pure phase and water.
Potassium and chloride ions.