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The concentration of OH- decreases as the concentration of H+ increases. This is beacause there is an equilibrium H2O <-> H+ + OH- and therefore the [H+][OH-] is a constant
SO2(g) + NO2(g) ==> SO3(g) + NO(g)Keq = [SO3][NO]/[SO2][NO2] Without knowing concentrations, one cannot calculate the actual value of Keq.
H Plus is a distribution company based in the UK who supply additives to the food, feed, pharmaceutical and other chemical industries. See here: http://www.hplus.co.uk H+ can also be used to denote an acid's dissociation eg [AH] <---> [A-] + [H+]
h20 , hcn
An acid plus a base will yield a salt and water in a neutralization reaction.
HX ---> H+ + X- Keq = [H+][X-]/[HX]
Keq = [H2O][CO] [H2][CO2]
C + O ==> COKeq = [CO]/[C][O]
A word equation represent the reactions between metals and acids. The reaction for zinc and hydrochloric acid would be, zinc plus hydrochloric acid produces hydrogen plus zinc chloride.
The only reaction and equilibrium takes place in pure water is the dissociation to hydroxonium and hydroxil ions. So they remain in same concentrations independent from temperature.
dissociation reaction
The concentration of OH- decreases as the concentration of H+ increases. This is beacause there is an equilibrium H2O <-> H+ + OH- and therefore the [H+][OH-] is a constant
Constant data and constant functions.
H+ = 0.024 MpH = 1.63
A constant is a variable that does not change. The correct term is constant variable.
In neutralisation reactions H+ and OH- ions come from the dissociation of water, H2O, which is part of the solution.Water dissociates in equilibrium, shown as:H2O(l) H+(aq) + OH-(aq)
SO2(g) + NO2(g) ==> SO3(g) + NO(g)Keq = [SO3][NO]/[SO2][NO2] Without knowing concentrations, one cannot calculate the actual value of Keq.