recall the reactions (including reagents and conditions) by which alkenes can be produced: (a) elimination of HX from a halogenoalkane by ethanolic NaOH and heat (b) dehydration of an alcohol, by using a heated catalyst (e.g. \( Al_2O_3 \)) or a concentrated acid (e.g. concentrated \( H_2SO_4 \)) (c) cracking of a longer chain alkane

describe: (a) the reaction with oxygen (combustion) (b) substitution to form halogenoalkanes, e.g. by reaction with HX(g); or with KCl and concentrated \( H_2SO_4 \) or concentrated \( H_3PO_4 \); or with PCl\(_3\) and heat; or with PCl\(_5\); or with SOCI\(_2\) (c) the reaction with Na(s) (d) oxidation with acidified \( K_2Cr_2O_7 \) or acidified KMnO\(_4\) to: (i) carbonyl compounds by distillation (ii) carboxylic acids by refluxing (primary alcohols give aldehydes which can be further oxidised to carboxylic acids, secondary alcohols give ketones, tertiary alcohols cannot be oxidised) (e) dehydration to an alkene, by using a heated catalyst, e.g. \( Al_2O_3 \) or a concentrated acid (f) formation of esters by reaction with carboxylic acids and concentrated \( H_2SO_4 \) as catalyst as exemplified by ethanol

recall the reaction (reagents and conditions) by which esters can be produced: (a) the condensation reaction between an alcohol and a carboxylic acid with concentrated \( H_2SO_4 \) as catalyst