difference betwin mili,micro,ohm?
The conductivity of electrolytes in solution is due to the presence of charged ions that can move freely and carry an electric current. When dissolved in water, electrolytes dissociate into positive and negative ions, allowing them to conduct electricity. The higher the concentration of electrolytes in the solution, the higher the conductivity.
The conductivity of water can be increased by adding electrolytes, such as salts or minerals, which help to carry electric current through the water.
Sort of. Mineral water is non an electrolyte itself, but it contains electrolytes.
Charles Fowler Lindsay has written: 'A study of the conductivity of certain salts in water, methyl, ethyl, and propyl alcohols, and mixtures of these solvents ..' -- subject(s): Conductivity of Electrolytes, Electrolytes, Conductivity
Weak electrolytes in a solution can be identified by observing their low conductivity compared to strong electrolytes. Weak electrolytes only partially dissociate into ions in solution, resulting in lower conductivity. Conductivity measurements or observing the degree of dissociation can help identify weak electrolytes.
Strong electrolytes completely dissociate into ions in solution, leading to high conductivity, while weak electrolytes only partially dissociate, resulting in lower conductivity.
The range of conductivity exhibited by strong electrolytes is typically high, indicating that they are good conductors of electricity.
Strong electrolytes are substances that completely dissociate into ions when dissolved in water, leading to high electrical conductivity. Examples include strong acids, strong bases, and soluble salts.
Strong electrolytes completely dissociate into ions in solution, resulting in a high conductivity, while weak electrolytes only partially dissociate, leading to lower conductivity. Conductivity measurements or observing the extent of dissociation can help differentiate between strong and weak electrolytes.
A strong electrolyte is a substance that completely dissociates into ions when dissolved in water, leading to a high conductivity of electricity. This is different from weak electrolytes, which only partially dissociate, and non-electrolytes, which do not dissociate at all in water.
Mineral water can conduct electricity to a certain extent due to the presence of dissolved minerals such as salts. However, the conductivity of mineral water is much lower compared to tap water or seawater. The level of conductivity depends on the type and concentration of minerals present in the water.
A strong electrolyte in chemistry is a substance that completely dissociates into ions when dissolved in water, resulting in a high conductivity of electricity. This is different from weak electrolytes, which only partially dissociate into ions, leading to lower conductivity.