Keq >> 1 strong
Keq << 1 weak
The dissociation is not so important.
Mostly ions, because the dissociation is near complete.
weak electrolyte
Potassium nitrate is a strong electrolyte.
A strong electrolyte produces more ions in solution than a weak electrolyte. Strong electrolytes ionize completely in solution, while weak electrolytes only partially ionize. This means that strong electrolytes produce a higher concentration of ions in solution.
Only bofs would know
Because by dissociation ions as Na+ and Cl- are formed.
The strong acid has a higher dissociation constant.
The dissociation is not so important.
The acid dissociation constant (Ka) is a measure of how well an acid donates its hydrogen ions in a solution. It is the equilibrium constant for the dissociation of an acid in water into its ions. A high Ka value indicates a strong acid, while a low Ka value indicates a weak acid.
HCN is a weak electrolyte. Although it partially dissociates into H+ and CN- ions in solution, the degree of dissociation is relatively low compared to strong electrolytes like strong acids or bases.
Mostly ions, because the dissociation is near complete.
When a weak electrolyte dissolves in water, only a small fraction of the compound dissociates into ions. This results in a low concentration of ions in the solution compared to a strong electrolyte. As a result, weak electrolytes conduct electricity less efficiently than strong electrolytes.
The degree of dissociation of an electrolyte increases with dilution because there are more solvent molecules available to surround and separate the ions in the solution. This reduces the chances of the ions recombining, leading to a higher degree of dissociation. Additionally, the weaker interactions between solvent molecules and ions in a diluted solution also contribute to higher dissociation.
weak electrolyte
No, O2 is not a strong electrolyte. It is a neutral molecule and does not dissociate into ions in water, which is required for a substance to be a strong electrolyte.
Oxalic acid is a weak electrolyte because it only partially dissociates into ions in solution. This partial dissociation results in a low concentration of ions and therefore a low conductivity compared to strong electrolytes that completely dissociate.