Synthesis - Fill in the blank

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Last updated: March 13, 2025

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First submitted	March 13, 2025
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Alkenes can take part in electrophilic addition reactions with hydrogen to form _ in the presence of a catalyst

Monohaloalkanes can take part in nucleophilic substitution reactions with _ to form nitriles

Alkenes can undergo acid catalysed hydration (_) to form alcohols (7)

_ can react with carboxylic acids to form esters using eg. concentrated sulfuric acid or concentrated phosphoric acid. (7)

Alcohols can undergo dehydration to form _, using a catalyst such as aluminium oxide, concentrated sulfuric acid, or concentrated phosphoric acid (1)

Nitriles can be _ to form carboxylic acids

Alkenes can take part in electrophilic addition reactions with halogens to form _

_ can take part in electrophilic addition reactions with hydrogen to form alkanes in the presence of a catalyst (3)

Alcohols can react with metals such as _ or potassium to form alcoholic alkoxides

Monohaloalkanes can take part in nucleophilic substitution reactions with aqueous alkalis to form _ (1)

Monohaloalkanes can take part in _ reactions with alcoholic alkoxides to form ethers (2)

Alkenes can take part in electrophilic addition reactions with _ to form monohaloalkanes (2)

Monohaloalkanes can take part in nucleophilic substitution reactions with _ to form alcohols

_ can react with acid chlorides to form esters using no catalyst

Alcohols can undergo dehydration to form alkenes, using a catalyst such as _, concentrated sulfuric acid, or concentrated phosphoric acid

Nitriles can be hydrolysed to form _ (1)

Alcohols can react with carboxylic acids to form esters using eg. _ or concentrated phosphoric acid. (2)

Alcohols can be oxidised using eg. acidified permanganate, _ , or hot copper (II) oxide

Alcohols can react with carboxylic acids to form _ using eg. concentrated sulfuric acid or concentrated phosphoric acid. (1)

_ can take part in electrophilic addition reactions with halogens to form dihaloalkanes (4)

Alkenes can take part in electrophilic addition reactions with _ to form alkanes in the presence of a catalyst

_ can undergo reduction by eg. lithium aluminium hydride to form alcohols

_ can undergo dehydration to form alkenes, using a catalyst such as aluminium oxide, concentrated sulfuric acid, or concentrated phosphoric acid (4)

Monohaloalkanes can undergo base-induced elimination of _ to form alkenes (1)

Monohaloalkanes can undergo base-induced elimination of hydrogen halides to form _ (2

_ can react with metals such as sodium or potassium to form alcoholic alkoxides (5)

Alcohols can react with acid chlorides to form esters using _

Monohaloalkanes can undergo base-induced _ of hydrogen halides to form alkenes

Monohaloalkanes can undergo _-induced elimination of hydrogen halides to form alkenes

_ can take part in nucleophilic substitution reactions with alcoholic alkoxides to form ethers (2)

_ can be oxidised using eg. acidified permanganate, acidified dichromate, or hot copper (II) oxide (6)

Monohaloalkanes can take part in _ reactions with ethanolic cyanide to form nitriles (3)

Alcohols can react with acid chlorides to form _ using no catalyst (2)

Aldehydes and ketones can undergo _ by eg. lithium aluminium hydride to form alcohols

Alcohols can react with _ to form esters using eg. concentrated sulfuric acid or concentrated phosphoric acid. (2)

_ can undergo acid catalysed hydration (electrophilic addition) to form alcohols

Monohaloalkanes can take part in nucleophilic substitution reactions with alcoholic alkoxides to form _

Alcohols can react with _ to form esters using no catalyst

Alcohols can be oxidised using eg. _, acidified dichromate, or hot copper (II) oxide

Alkenes can take part in electrophilic addition reactions with hydrogen halides to form_ (4)

Monohaloalkanes can take part in _ reactions with aqueous alkalis to form alcohols (1)

Alkenes can undergo acid catalysed hydration (electrophilic addition) to form _ (2)

Monohaloalkanes can take part in nucleophilic substitution reactions with ethanolic cyanide to form _ (1)

Alkenes can undergo _ catalysed hydration (electrophilic addition) to form alcohols

Aldehydes and ketones can undergo reduction by eg. _ to form alcohols

Alcohols can be oxidised using eg. acidified permanganate, acidified dichromate, or _

Alcohols can undergo dehydration to form alkenes, using a catalyst such as aluminium oxide, _ , or concentrated phosphoric acid (1)

Alcohols can undergo _ to form alkenes, using a catalyst such as aluminium oxide, concentrated sulfuric acid, or concentrated phosphoric acid

Monohaloalkanes can take part in nucleophilic substitution reactions with _ to form ethers

_ can undergo base-induced elimination of hydrogen halides to form alkenes

Alcohols can undergo dehydration to form alkenes, using a catalyst such as aluminium oxide, concentrated sulfuric acid, or _ (1)

_ can take part in electrophilic addition reactions with hydrogen halides to form monohaloalkanes (5)

Alcohols can react with carboxylic acids to form esters using eg. concentrated sulfuric acid or _ (2)

_ can take part in nucleophilic substitution reactions with aqueous alkalis to form alcohols (1)

Alkenes can take part in_ reactions with hydrogen halides to form monohaloalkanes (3)

Alkenes can take part in _ reactions with halogens to form dihaloalkanes (2)

Alcohols can react with metals such as sodium or potassium to form _ (2)

Alcohols can be _ using eg. acidified permanganate, acidified dichromate, or hot copper (II) oxide

Alkenes can undergo acid catalysed _ (electrophilic addition) to form alcohols

Alkenes can take part in electrophilic addition reactions with _ to form dihaloalkanes

Alkenes can take part in _ reactions with hydrogen to form alkanes in the presence of a catalyst

_ can be hydrolysed to form carboxylic acids (2)

_ can take part in nucleophilic substitution reactions with ethanolic cyanide to form nitriles (3)

Alcohols can react with metals such as sodium or _ to form alcoholic alkoxides

Aldehydes and ketones can undergo reduction by eg. lithium aluminium hydride to form _ (3)

Acid

Acid chloride

Acidified dichromate

Acidified permanganate

Alcoholic alkoxides

Alcoholic alkoxides (2)

Alcohols

Alcohols (1)

Alcohols (2)

Alcohols (3)

Alcohols (4)

Alcohols (5)

Alcohols (6)

Alcohols (7)

Aldehydes and ketones

Alkanes

Alkenes

Alkenes (1)

Alkenes (2)

Alkenes (3)

Alkenes (4)

Alkenes (5)

Aluminium oxide

Aqueous alkalis

Base

Carboxylic acids (1)

Carboxylic acids (2)

Conc. phosphoric acid

Conc. Sulphuric acid (2)

Concentrated phosphoric acid (1)

Concentrated sulfuric acid (1)

Dehydration

Dihaloalkanes

Electrophilic addition

Electrophilic addition (2)

Electrophilic addition (3)

Electrophilic addition (7)

Elimination

Esters (1)

Esters (2)

Ethanolic cyanide

Ethers

Halogens

Hot copper (II) oxide

Hydration

Hydrogen

Hydrogen halides (1)

Hydrogen halides (2)

Hydrolysed

Lithium aluminium hydride

Monohaloalkanes

Monohaloalkanes (1)

Monohaloalkanes (2)

Monohaloalkanes (3)

Monohaloalkanes (4)

Nitriles (1)

Nitriles (2)

No catalyst

Nucleophilic Substitution (1)

Nucleophilic substitution (2)

Nucleophilic substitution (3)

Oxidised

Potassium

Reduction

Sodium

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