Generally, because there are more atoms for the electrons to "bump" with.
Yes, adding sugar to a solution of electrolytes will increase the electrical resistance because sugar does not conduct electricity. The presence of sugar molecules will disrupt the flow of ions in the solution, leading to higher resistance to the passage of electrical current.
The electrical conductivity of the solution will be higher if the concentration of NaCl increase.
You can increase the concentration of a solution by adding more solute (solid, liquid, or gas) to the solvent or by removing some of the solvent by evaporation. Stirring or heating the solution can also help dissolve more solute and increase the concentration.
The conductivity of a solution generally increases as its concentration increases. This is because a higher concentration means there are more ions present in the solution, which allows for better electrical conductivity.
If the concentration of weak bases increases, the pH of the solution will increase. Weak bases accept protons in solution, leading to a decrease in hydrogen ion concentration and an increase in hydroxide ion concentration, which in turn raises the pH.
To increase the molarity of a solution, you can add more solute to the solvent or decrease the volume of the solvent. This will increase the concentration of the solution, resulting in a higher molarity.
acids
Increasing the salt concentration in a solution would lead to an increase in the density of the solution. It would also increase the boiling point and lower the freezing point of the solution due to the colligative properties of salt. Additionally, the solubility of certain substances may be affected by the increase in salt concentration.
Acids increase the hydrogen ion concentration in a solution.
The molarity of a solution can be changed by adding more solute to increase the concentration or by adding more solvent to decrease the concentration.
The greater the concentration of salt in an aqueous solution, the higher the electrical conductivity. This is because, with a greater salt concentration, there are more ions available to serve as a path for electron transfer in the solution.
An increase in the concentration of OH- ions.