| A | B |
|---|
| CH3.CN called | ethanonitrile |
| CH3.CH2.CN called | propanonitrile |
| CH3.CH2.CH2.CN called | butanonitrile |
| CH3.CN formed from CH3.CO.NH2 by | CH3.CO.NH2 + P2O5 |
| P2O5 called | phosphorus V oxide (phosphorus pentoxide0 |
| CH3.CO.NH2 + P2O5 reaction type is | dehydration |
| CH3.CN can be formed from CH3I by | CH3I + KCN (in ethanol) heat under reflux |
| CH3.CN heat under reflux with HCl(+H2O) | CH3.CO.OH + NH4Cl |
| CH3.CO.OH called | ethanoic acid |
| CH3.CN with HCl (+H2O) reaction type | acid hydrolysis |
| CH3.CN heat under reflux with NaOH(+H2O) forms | CH3.CO.O(-) Na(+) + NH3 |
| CH3.CO.O(-) Na(+) called | sodium ethanoate |
| CH3.CH2.CN + HCl heat under reflux forms | CH3.CH2.COOH + NH4Cl |
| CH3.CH2.CH2.COOH can be formed from CH3.CH2.CH2.CN by | heating under reflux with HCl |
| CH3.CH2.CH2.COO(-) Na(+) can be formed from CH3.CH2.CH2.CN by | heating under reflux with NaOH |
| LiAlH4 is called | lithium aluminium hydride |
| LiAlH4 is a strong | reducing agent |
| LiAlH4 conditions for use | use in dry ether |
| LiAlH4 + CH3.CN forms | CH3.CH2.NH2 |
| CH3.CH2.NH2 called | ethylamine |
| CH3.CH2.CH2.COOH + LiAlH4 forms | CH3.CH2.CH2.CH2OH |
| CH3.CH2.CH2.NH2 can be formed from CH3.CH2.CN by | using LiAlH4 |
| CH3.CH2.CH2.CO.NH2 + P2O5 forms | CH3.CH2.CH2.CN |
| CH3.CH2.CH2.CN called | butanonitrile |
| CH3.CH2.CH2.CN + LiAlH4 forms | CH3.CH2.CH2.CH2.NH2 |
