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Autodissociation, or autoionization is the spontaneous separation of molecules into ions. A molecule, or a set of molecules will split up to form a number of positive charged particles (cations) and negative charged particles (anions). Autodissociation is usually associated with protic solvents; compounds that can supply protons (H+ ions) to stronger bases.
Water (H2O) undergoes autodissociation. The chemical formula representing this reaction is: 2 H2O = H3O+ + OH-
or simplified (but a less-correct representation of chemical structures): H2O = H+ + OH-
This is an equilibrium reaction, which means that under ordinary conditions water consists of both H2O molecules, and the H3O+ and OH- ions.
The extent of autodissociation of water is very small. This is expressed by the equilibrium constant: K'25 °C = [H+][OH-]/[H2O] = (1.0·10-14)/55.56
The equilibrium constant indicates that at 25 °C, for every 55.6 moles of water, only 1.0·10-14 moles are dissociated in the corresponding ions (approximately 1 pair of ions per 5.6·1015 molecules of water).
Since the 55.56 mol/L concentration of water molecules is essentially constant, it is usually omitted. Thus: K25 °C = [H+][OH- ] = 1.0·10-14 mol2/L2 is used. However, the autodissociation constant is only constant for a given temperature, and generally increases for increasing temperature.
Autodissociation is not restricted to water alone: many other compounds undergo the same type of reaction: 2 HCl = H2Cl+ + Cl- (hydrochloric acid) 2 HF = H2F+ + F- (hydrofluoric acid) 2 H2SO4 = H3SO4+ + HSO4- (sulfuric acid) 2 NH3 = NH4+ + NH2- (Ammonia)
Keep in mind that these simple equations describe only part of the chemical dissociation reactions that occur in reality. For instance, the primary ions observed in water can undergo further solvation reaction to ions such as H5O2+, H7O3+, and H9O4+.
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Is the dissociation disorder healthy?
Dissociation is a dangerous mental disease.
What are examples of dissociation?
Dissociation of sodium chloride in water solution: NaCl -----------Na+ + Cl-
Factors affecting dissociation constant of acid?
The dissociation constant of an acid is affected by factors such as temperature, solvent, and ionic strength of the solution. Increasing temperature generally leads to higher dissociation constants, while changes in solvent polarity can also impact the dissociation constant. Additionally, the presence of other ions in the solution can affect the dissociation constant by influencing the equilibrium position of the acid dissociation reaction.
What process produce solute ions in a solution?
The Correct Answer is: Ionization and Dissociation.
Dissociation factor of C12H22O11?
The dissociation factor is 1, because the molecule can't break apart.
Is Dissociation a process?
Yes, dissociation is a process where a person disconnects from their thoughts, feelings, memories, or sense of identity. It can be a defense mechanism in response to trauma or overwhelming stress. Therapy can help individuals experiencing dissociation to reconnect and integrate their experiences.
The acid dissociation constant for an acid dissolved in water is equal to?
The acid dissociation constant (Ka) for an acid dissolved in water is equal to the ratio of the concentration of the products (H+ and the conjugate base) over the concentration of the reactant (the acid). It represents the extent of dissociation of the acid in water.
What is the acid dissociation constant for an acid at equilibrium HX - H X-?
The dissociation constant is:k = [H][X]/[HX]
What is the balanced equation for the dissociation of water?
The balanced equation for the dissociation of water is: 2H2O (liquid) ⇌ 2H+ (aqueous) + O2- (aqueous)
Show the equation of dissociation water?
The equation for the dissociation of water is: H2O ↔ H+ + OH-
What is the dissociation equation for ZnF2?
The dissociation equation for zinc fluoride (ZnF2) in water is: ZnF2 (s) → Zn2+ (aq) + 2F- (aq)
What is the relationship between the magnitude of a molecule's bond dissociation energy and its expected chemical reactivity?
There is an inverse relationship between bond dissociation energy and chemical reactivity. Molecules with high bond dissociation energies are more stable and less reactive, while molecules with lower bond dissociation energies are more reactive as they require less energy to break their bonds.
