because the ions has ability to conuct the charge it carry by ion
More ions=more conduction
concentration of ions in the solution increases!
how much free charged ions there are in a solution
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.
When and acid dissolves, ions are released, and the more ions in the water, the more conductivity it has.
Conductivity through a solution is generally through the ions that are present in it. Pure water is not very conductive at all, but salty water is quite conductive. Therefore the more salt or ions dissolved in solution, the higher the conductivity (within limits). As you dilute in solution the concentration of ions goes down, and the ability to pass a current is diminished.
More ions=more conduction
Yes soap solution or any solution can be made to conduct electricity. But, when the solution is made of distilled water then electric conductivity is less compared to ordinary water. The conductivity of a solution depends on the purity of the water as electrical conductivity depends on the availability of positive and negative ions in a solution, and ordinary water contains a lot of salts i.e. NaCl which can split into NA+, Cl- ions, these ions can conduct electricity in water. But in distilled water, depending on the purity of the salts in the solution, electrical conductivity increases or decreases.
concentration of ions in the solution increases!
how much free charged ions there are in a solution
The strength of an acid depends of the number of hydrogen ions in solution- the stronger the acid the more hydrogen ions there are in solution. Hydrogen ions in solution carry current, therefore the more hydrogen ions in the solution the more current there will be carried through solution.
The chemical substance must form ions in solution if it is conductive. Ions are required for charge to flow through a solution.
An aqueous solution of sugar is not electrically conductive. Water only becomes conductive when charged ions are in solution, and dissolved sugar does not create mobile ions.
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.
1.00 M AlCl3 solution shows more conductivity due to presence of more charges on ions.
The initial concentration affects the conductivity of a solution in a sense that the greater the initial concentration,the greater the conductivity.increase in concentration means presence of more free moving ions in the solution.but this can only occur in the initial concentration because,after the initial concentration,an increase in concentration will mean that there are now more ions present in the solution but the same volume,hence the ions wouldn't be able to move freely an in the initial concentration,hence the conductivity would then decrease since they can't move freely now.
Pure solide NaCl is not electrically conductive. The water solution of NaCl is an electrolyte and is conductive.