Does a double replacement reaction involve an exchange of bonds between compounds?

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Does a double replacement reaction involve an exchange of bonds between compounds?

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Answer 1 · 2015-11-15T17:39:09

No, it doesn't.

Explanation:

There are two main types of double replacement reactions: a) formation of insoluble ionic substances and b) formation of a molecular substance from the interaction of positive and negative ions.

In case a) the positive part of reacting substance 1 is capable of forming an insoluble substance by sticking to the negative part of reacting substance 2.
Neither ions in reactant 1 nor reactant 2 are changed to yield new species.

For example:

$B a C l_{2} (a q) + N a_{2} S O_{4} (a q) \to B a S O_{4} (s) ⏐ ↓ + 2 N a C l (a q)$ $BaCl_2(aq) + Na_2SO_4(aq) -> BaSO_4(s)↓ + 2NaCl(aq)$ ;

there, no ion underwent any change, and neither bonds have got any change or exchanged themselves (they were ionic in the reacting substances 1 & 2, barium chloride and sodium sulphate, and they are ionic also in the product substances, 3 & 4 barium sulfate and sodium chloride.

The only exchange interested the competition between sodium and barium ions to form a stabler and less soluble ionic lattice with sulfate ions.
Being sodium and chloride ions, "spectator ions", this common reaction entailed not really a double exchange, but a single exchange.

In cases b) there is a change in the structure of ionic species caused by the interaction and a consequent partial disappearing of ionic species from the solution to form molecular species as $C O_{2}$ $CO_2$ or $H_{2} O$ $H_2O$ (in neutralization reactions). The formation of such molecules drives the spontaneity of the reaction towards the products.

As an example of reaction type b) let's take a neutralization reaction:

$H C l (a q) + N a O H (a q) \to N a C l (a q) + H_{2} O (l)$ $HCl(aq) + NaOH(aq) -> NaCl(aq) + H_2O(l)$

Here the positive part of $H C l$ $HCl$ , i.e. $H^{+} (a q)$ $H^+"(aq)$ ions, combined to form water molecules with negative part of $N a O H$ $NaOH$ , $O H^{-} (a q)$ $OH^-"(aq)$ ions, whereas $N a^{+} (a q)$ $Na^+(aq)$ and $C l^{-} (a q)$ $Cl^-"(aq)$ remained substantially unchanged (spectator ions).

We can conclude that in this b-type reaction there weren't any exchange, but just a matching of a positive plus negative ions which combined to form a molecule. One of two ionic bonds in the reactants became a covalent bond in one of the two products (water).

Hope this helps to unveil the true nature of so called "double exchange" reactions.

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Does a double replacement reaction involve an exchange of bonds between compounds?

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