A solution with a pH of 5 would react with a base to form a salt. The base would neutralize the acidic solution, resulting in the formation of a salt and water.
No, salt and sand do not combine to form a solution. A solution is a homogeneous mixture where the solute (salt) dissolves into the solvent (water) to form a single phase. In the case of salt and sand, they would form a heterogeneous mixture where the components remain separate and can be easily separated by physical means such as filtration.
How well something conducts electricity depends on its charge and how freely the electrons can move in it, for example, electricity will typically ignore humans in order to flow to a metal because metal is a much better conductor due to the fact that electrons in metal are much less bound to their atoms than that of humans.
Some examples of a non-electrolyte solution in water would be a solution of sugar, or a solution of urea. These do no ionize in solution and so are non-electrolytes.
Some examples of a non-electrolyte solution in water would be a solution of sugar, or a solution of urea. These do no ionize in solution and so are non-electrolytes.
No, they would not form a solution.
Potassium hydroxide is a strong electrolyte.
A solution with a pH of 5 would react with a base to form a salt. The base would neutralize the acidic solution, resulting in the formation of a salt and water.
No, salt and sand do not combine to form a solution. A solution is a homogeneous mixture where the solute (salt) dissolves into the solvent (water) to form a single phase. In the case of salt and sand, they would form a heterogeneous mixture where the components remain separate and can be easily separated by physical means such as filtration.
Some examples of a non-electrolyte solution in water would be a solution of sugar, or a solution of urea. These do no ionize in solution and so are non-electrolytes.
How well something conducts electricity depends on its charge and how freely the electrons can move in it, for example, electricity will typically ignore humans in order to flow to a metal because metal is a much better conductor due to the fact that electrons in metal are much less bound to their atoms than that of humans.
Some examples of a non-electrolyte solution in water would be a solution of sugar, or a solution of urea. These do no ionize in solution and so are non-electrolytes.
Some examples of a non-electrolyte solution in water would be a solution of sugar, or a solution of urea. These do no ionize in solution and so are non-electrolytes.
Some examples of a non-electrolyte solution in water would be a solution of sugar, or a solution of urea. These do no ionize in solution and so are non-electrolytes.
Some examples of a non-electrolyte solution in water would be a solution of sugar, or a solution of urea. These do no ionize in solution and so are non-electrolytes.
Ch3cooh
Yes. Glycerol is miscible (soluble) in water, so it will make a solution.