# Acids and bases

## Examples
| name | acid | base |
| ---- | ---- | ---- |
| Hydrochloric acid | HCl | Cl- |
| Sulfuric acid | H2SO4 | HSO4-, SO4 |
| Ethanoic acid | CH3COOH | CH3COO- |
| Butanoic acid | CH3(CH2)2COOH | CH3(CH2)2COO- |
| Nitric acid | HNO3 | NO3- |
| Citric acid | C6H8O6 | C6H7O6-, C6H6O6(2-), C6H5O6(3-) |
| Propanoic acid | CH3CH2COOH | CH3CH2COO- |
| Phosphoric acid | H3PO4 | H2PO4-, HPO4(2-), PO4(3-) |
| Hydrogen cyanide | HCN | CN- |
| Water | H2O | OH- |
| Carbonic acid | H2CO3 | HCO3, CO3(2-) |
| Ammonium | NH4+ | NH3 |

- monoprotic / diprotic / triprotic - refers to no. of bases

- Acid-base reaction: conjugate acid-base pairs (differentiated by one H+)
H30+ - hydronium ion

- $[x]$ refers to molar concentration of x

- _amphiprotic_ - can act as acid or base (e.g. H2O)

## Properties of acids

- sour taste
- corrosive
- molecular in structure
- dissolves in H2O to produce electrolyte (electric conductor)
- neutralised by bases

## Acid reactions

1. acid + metal (exc. Cu, Hg, Ag) $\longrightarrow$ salt + $H_{2(g)}$
2. acid + metal carbonate $\longrightarrow$ salt + $CO_{2(g)} + H_2O_{(l)}$
3. acid + metal hydrogen carbonate $\longrightarrow$ salt + $CO_{2(g)} + H_2O_{(l)}$
4. acid + metal sulfite $\longrightarrow$ salt + $SO_{2(g)} + H_2O_{(l)}$
5. acid + metal sulfide $\longrightarrow$ salt + $H_2S_{(g)}$
6. acid + metal oxide (basic oxide) $\longrightarrow$ salt + $H_2O_{(l)}$
7. acid + base (metal hydroxide) $\rightarrow$ salt + $H_2O_{(l)}$

## Properties of bases

- bitter taste
- slippery feel (reacts with skin oils)
- turn litmus red to blue
- electrolytes (conductive)
- oxides or hydroxides of metal
- usually insoluble (insoluble - called _alkali_)

## Bronsted-Lowry theory

> **Acid:** donates a proton ($H^+$ ion)  r
> **Base:** accepts a proton from another substance

H atom is one proton and electron, so removing an electron leaves $H^+$ ion.

**Only occurs when both acid and base are present**

![](http://content.jacplus.com.au/secure/ebooks/07303/0730327531/images/241-1.jpg)

## Hydrolysis

Hydrolysis is where acid + base react to proudce a non-neutral solution. This happens when ions can act as either acids or bases. aka ionisation reaction.

$H_2O_{{(l)}} + H_2O_{(l)} {\longleftrightarrow} {OH}^-_{(aq)} + H_3O^+_{(aq)}$

Neutral solutions: $[H_3O^+]=[OH^-]$  
Acidic: $[OH^-]<[H_3O^+]$  
Basic: $[OH^-]>[H_3O^+]$

In all aq solutions at 25C:
$$[H_3O^+] \times [OH^-] = 10^{-14} \quad \text{(hydrolysis constant)}$$

## Dissociation of bases

Ionic bases dissolving in $H_2O$ - ionic compounds dissociate into constituent ions. Not ionised.

e.g. $NaOH_{(s)}\stackrel{\mathrm{H_2O}}{\longrightarrow}Na^+_{(aq)}+OH^−_{(aq)}$

## pH values

Acid/base/neutral not equivalent to pH (logarithmic scale)

In water at 25C: $[H_3O^+] \times [OH^-]=10^{-7} \therefore \text{pH}=7$

$$\text{pH} = -\log[H_3O^+]=-\log[H^+]$$
$$[H_3O^+]=10^{-\text{pH}}$$