Equilibrium expressions cannot be written for complete reactions, because you have to have the forward rate, as well as a reverse rate. Complete reactions do not have reverse rates, because they become complete, and all of the reactants are used up. Complete reactions only produce products, and the products don't produce reactants.
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In a reaction which is not reversible the reactants are always written on the start point of the reaction arrow and products are always written on the end point of the arrow. On the other hand, if you have an equilibrium, then determining reactants and products is a little different.
The solubility equilibrium equation for a compound is the equilibrium expression that represents the dissolution of the compound in a solvent. It is typically written as the product of the concentrations of the dissolved ions raised to the power of their respective stoichiometric coefficients.
Chemical reactions are typically written left to right to show the progression of reactants converting into products. The reactants are usually on the left side of the equation, while the products are on the right side.
Hydroxide is a negatively charged ion composed of one oxygen atom and one hydrogen atom, written as OH-. Hydroxyl, on the other hand, is a functional group consisting of an oxygen and a hydrogen atom bonded to a carbon atom, written as -OH. In chemical reactions, hydroxide ions can act as bases and participate in neutralization reactions. They can also act as nucleophiles in substitution reactions. Hydroxyl groups, on the other hand, can act as both bases and nucleophiles, depending on the specific chemical reaction. They are commonly found in alcohols and phenols, where they can participate in reactions such as dehydration, esterification, and oxidation.
A polyatomic ion is written as a single charged particle enclosed in parentheses. For example, the nitrate ion (NO3-) is treated as one unit in chemical reactions.
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how can i answer if there were no expressions written? where are the expressions so then i can solve it... I'm pretty good at it, trust me!
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