the net ionic equation of the ionization of HClO3 in water
HClO3 is a strong acid and ionizes 100%.
HClO3 + H2O ==> H3O^+(aq) + ClO3^-(aq)
My favorite guru
Sure, here's the net ionic equation for the ionization of HClO3 in water:
HClO3 (aq) → H+ (aq) + ClO3- (aq)
Or, in other words:
"Hey HClO3, mind if I break you up? HClO3 goes into H+ and ClO3-. It's a bittersweet breakup, just like when lemons say goodbye to sugar in lemonade!"
Hope that brings a smile to your face!
To determine the net ionic equation for the ionization of HClO3 (chloric acid) in water, we first need to write the balanced chemical equation for the ionization, and then identify the spectator ions.
The balanced chemical equation for the ionization of HClO3 is:
HClO3 + H2O → H3O+ + ClO3-
To find the net ionic equation, we need to omit the spectator ions. In this case, the spectator ion is ClO3-, as it appears unchanged on both sides of the equation. It does not participate in the overall reaction. Therefore, we can eliminate it from the equation.
The net ionic equation for the ionization of HClO3 in water is:
HClO3 + H2O → H3O+ (aq)
Thus, the net ionic equation represents the actual chemical change occurring, with only the relevant ions involved.
To determine the net ionic equation for the ionization of HClO3 in water, we first need to write the balanced chemical equation for the dissociation of HClO3.
Step 1: Write the balanced chemical equation for the ionization of HClO3 as a strong acid in water:
HClO3 + H2O -> H3O+ + ClO3-
Step 2: Separate the strong acid HClO3 into its ions:
HClO3 -> H+ + ClO3-
Step 3: Eliminate spectator ions. In this case, there are no spectator ions since all the ions are involved in the reaction.
Step 4: Finalize the net ionic equation:
HClO3 -> H+ + ClO3-
Therefore, the net ionic equation for the ionization of HClO3 in water is HClO3 -> H+ + ClO3-.