The acid becomes diluted.
Putting an acid in water will result in dissociation. For example, when hydrochloric acid is put in water, HCl becomes H+ (hydronium ions) and Cl- (chloride ions). The degree to which the acid dissociates determines it's strength.
when mixed sulfuric acid with water in the presence of oxygen nothing happens but the acid turned from concentrated acid will turn into diluted acid.
Nothing happens. Gold will not react with sulfuric acid.
A strong acid is totally dissociated in water; a weak acid is only partially dissociated in water.
The simplest way to answer this is to say that water can act as an acid or a base - giving up a proton (H+) or taking one. When put with an acid, it acts as a base and therefore accepts the proton from the acid. acid + base <---> acid + base HCl + H2O <---> Cl- + H3O+
The battery would lose its acid.
Makes an ester and water
Putting an acid in water will result in dissociation. For example, when hydrochloric acid is put in water, HCl becomes H+ (hydronium ions) and Cl- (chloride ions). The degree to which the acid dissociates determines it's strength.
when mixed sulfuric acid with water in the presence of oxygen nothing happens but the acid turned from concentrated acid will turn into diluted acid.
Nothing happens. Gold will not react with sulfuric acid.
A strong acid is totally dissociated in water; a weak acid is only partially dissociated in water.
The simplest way to answer this is to say that water can act as an acid or a base - giving up a proton (H+) or taking one. When put with an acid, it acts as a base and therefore accepts the proton from the acid. acid + base <---> acid + base HCl + H2O <---> Cl- + H3O+
The temperature of the acid will increase
acid + base = salt+ water
It maintains its original hue. When placed in a base (metal oxide+water), it will turn blue.
Let's see! MgO + 2HCl --> MgCl2 + H2O You get a salt, magnesium chloride, and water.
dissolve