Chapter 16 - Organic Synthesis

Question 1

What 5 elements make up the quick-fit apparatus?

Answer 1

Pear-shaped flask
Receiver
Screw-tap adaptor
Condenser
Still head

Question 2

Why is it advantageous to heat a material under reflux?

Answer 2

If you heat organic reactants, they’ll evaporate before they can react
It also avoids the use of a naked flame

Question 3

What does it mean to heat a reactant under reflux?

Answer 3

The mixture is heated in a flask with a vertical Liebig condenser, which continuously boils, evaporates and condenses the vapours

Question 4

What five pieces of kit are needed to heat under reflux?

Answer 4

Pear-shaped flask
Condenser
Rubber tubing
Stand with clamp
Heat source

Question 5

How do you heat a mixture under reflux?

Answer 5

Set up your apparatus
Add the reaction mixture, along with some anti-bumping granules, to the flask
Apply a layer of grease to the joint on the condenser, to ensure the equipment can be dismantled at the end
Connect the rubber tubing to a water outlet

Question 6

What do anti-bumping granules do?

Answer 6

They allow the contents to boil smoothly

Question 7

Why is it important never to put a bung in the top of the condenser?

Answer 7

There would be too much pressure building up and the apparatus may explode

Question 8

In what way should water enter the jacket?

Answer 8

Enter at the bottom and leave at the top

Question 9

What is distillation used for?

Answer 9

Separating substances with different boiling points

Question 10

What nine pieces of equipment are needed for distillation?

Answer 10

Pear-shaped flask
Condenser
Rubber tubing
Heat source
Stand and clamp
Screw-tap adaptor
receiver adaptor 
Still head
Thermometer

Question 11

How do you heat a mixture under reflux?

Answer 11

Set up your apparatus and grease the joints of still head
Connect rubber tubing to a water outlet
Heat your mixture. The chemicals with the lowest boiling points will evaporate and be collected in the flask first
The vapour will move out of the flask and into the condenser, where it will condense and drip into the receiver flask

Question 12

Why might you need to purify the mixture obtained from distillation or refluxing?

Answer 12

It might contain water

Question 13

How do you purify a mixture?

Answer 13

1) Add some water to your mixture. The layer that increases in size is the aqueous layer (we don’t want this)
2) Pour the mixture into a separating funnel, ensuring the tap is closed
3) Place a bung in the top and invert to mix the contents
4) Allow the layers to settle
5) Place a flask under the tap, remove the stopper and run out the entire bottom layer into the flask
6) Run off the other layer into another flask
7) Discard the aqueous layer - your organic product is now purified

Question 14

How would you remove acid impurities?

Answer 14

Add sodium carbonate and shake whilst in the separating funnel
The tap must be slowly opened, whilst holding the stoppered funnel upside down, to release any CO2 formed by the gas
Remove the sodium carbonate layer and repeat the normal method

Question 15

What is anhydrous calcium chloride used for?

Answer 15

Drying hydrocarbons

Question 16

What is anhydrous calcium sulfate used for?

Answer 16

General drying

Question 17

What is anhydrous magnesium sulfate used for?

Answer 17

General drying

Question 18

How do you dry an organic liquid?

Answer 18

1) At the organic liquid to a conical flask
2) using a spatula, add some of the drying agents to the liquid and gently swirl contents to mix together
3) place stopper on the flask to prevent your products from evaporating away. Leave for about 10 minutes
4) if the solid has always stuck together in a lump, there are still some water present. Add more drying agent until some solid is dispersed in the solution as a fine powder
5) Decant the liquid from the solid into another flask. If the liquid is dry it should be clear

Question 19

Why might you have to carry out redistillation?

Answer 19

Organic liquids may have similar boiling points, so your sample may still contain organic impurities.

Question 20

How do you carry out redistillation?

Answer 20

Clean and dry the distillation apparatus and set up again the second distillation.

Question 21

How do you get a carboxylic acid?

Answer 21

Primary alcohol reacted with K2Cr2O7/H2SO4 under reflux

Question 22

How do you get an aldehyde?

Answer 22

Primary alcohol reacted with K2Cr2O7/H2SO4 under distill

Question 23

How do you get a ketone?

Answer 23

Secondary alcohol reacted with K2Cr2O7/H2SO4 under reflux

Question 24

What is produced when you react an alcohol with sodium halide and sulfuric acid?

Answer 24

Haloalkane

Question 25

What is produced when you react a haloalkane with sodium hydroxide under reflux?

Answer 25

Alcohol

Question 26

What is produced when you create an alcohol with concentrated sulfuric acid?

Answer 26

Alkene

Question 27

What is produced when you react an alkene with steam and a H3PO4 catalyst?

Answer 27

Alcohol

Question 28

What is produced when you react an alkene with hydrogen halide?

Answer 28

Haloalkane

Question 29

What is produced when you create an alkene with hydrogen and a nickel catalyst?

Answer 29

Alkane

Question 30

What is produced when you react an alkane with a halogen under UV light?

Answer 30

Haloalkane

Question 31

What does a synthetic route tell you?

Answer 31

Predicting reactions and solving synthesis problems

Question 32

What is a target molecule?

Answer 32

Used to describe the compound that the chemist is attempting to prepare by organic synthesis

Question 33

What are the three steps to describing organic synthesis?

Answer 33

• Identify the functional groups in your starting and target molecules
• Identify the intermediate that links are starting on target molecules
• State the reagents and conditions for each step

Question 34

Which of the compounds we have studied have polar bonds?

Answer 34

Cl2 HBr