Strong acids are dissociated completely.
Nitric, sulphuric, hydrochloric. They are all strongly dissociated in water.
acids release hydrogen ions bases release hydroxide ions
Acids are dissociated forming hydrogen cations.
They do not completely dissociate in water
Acids are defined as compounds that dissociated in water to release hydrogen cations, also called protons, with some degree of aquation. The most prevalent such aquated cation under most conditions has the formula H3O+1.
Nitric, sulphuric, hydrochloric. They are all strongly dissociated in water.
Acids are dissociated forming hydrogen cations.
acids release hydrogen ions bases release hydroxide ions
Acids are dissociated forming hydrogen cations.
They do not completely dissociate in water
Acids are defined as compounds that dissociated in water to release hydrogen cations, also called protons, with some degree of aquation. The most prevalent such aquated cation under most conditions has the formula H3O+1.
Salt is dissociated in ions in the solution; sugar is not dissociated.
Salt is dissociated in ions in the solution; sugar is not dissociated.
Theoritically, there exists no acid that can fully dissociate into ions in aqueous medium. Though, for practical purposes, it is often assumed that strong acids such as nitric acid, hydrochloric acid etc. are fully dissociated. Other than these few strong acids, all other acids partially dissociate, a common example is acetic acid.
It would mean that at equilibrium approximately half of the acid had dissociated. Normally strong acids are defined as having a Ka >1 and weak acids Ka <1. At exactly 1 you would have something right on the border between the two.
associated
Ionic compounds are dissociated in water solution.