Disprotonation?
Donates a proton.
To give,
H(+) and NO2(-)
Dimeric selenium chloride (Se2Cl2) undergoes disproportionation reaction in the presence of water to form selenious acid (H2SeO3) and hydrochloric acid (HCl). This reaction involves the reduction of Se4+ in Se2Cl2 to Se2+ in H2SeO3 and the oxidation of Se4+ to Se6+ in HCl by water.
6CrO2 (aq) + 10 H+ (aq) --> Cr O72- (aq) + 4 Cr3+ (aq) + 5H2O (l)
The disproportionation of hydrogen peroxide is represented by the following reaction: 2H2O2 - 2H2O O2
HNO2 is a weak acid. It can donate a proton in a chemical reaction.
The bond angles in HNO2 are approximately 120 degrees.
It is called disproportionation. In this type of reaction, an element undergoes both oxidation and reduction, leading to the formation of two different oxidation states of the element.
Dimeric selenium chloride (Se2Cl2) undergoes disproportionation reaction in the presence of water to form selenious acid (H2SeO3) and hydrochloric acid (HCl). This reaction involves the reduction of Se4+ in Se2Cl2 to Se2+ in H2SeO3 and the oxidation of Se4+ to Se6+ in HCl by water.
The Cannizzaro reaction involving glyoxal is a self-disproportionation reaction where two molecules of glyoxal react to form one molecule of glyoxalic acid and one molecule of glyoxylic acid. This reaction is a type of redox disproportionation reaction, where one molecule is oxidized and the other is reduced simultaneously. Glyoxal is a dialdehyde compound that readily undergoes this disproportionation reaction in alkaline conditions.
6CrO2 (aq) + 10 H+ (aq) --> Cr O72- (aq) + 4 Cr3+ (aq) + 5H2O (l)
ka=[H+][NO2_]/[HNO2]
The disproportionation of hydrogen peroxide is represented by the following reaction: 2H2O2 - 2H2O O2
HNO2 is a weak acid. It can donate a proton in a chemical reaction.
The bond angles in HNO2 are approximately 120 degrees.
The chemical equation for nitrous acid is HNO2. The equilibrium expression for its ionization is: HNO2 ⇌ H+ + NO2- with Ka = [H+][NO2-]/[HNO2] = 4.5x10^-4.
This is a thermal decomposition reaction.
The Ka for the dissociation of HNO2 is 4.5 x 10^-4. This value represents the equilibrium constant for the reaction of HNO2 dissociating into H+ and NO2-.
The conjugate base of HNO2 is NO2-. When HNO2 loses a proton, it forms its conjugate base, nitrite ion (NO2-).