Alkenes and polymers Flashcards

1
Q

What is the structure of ethene?

A

Each carbon in the ethene molecule is surrounded by 3 regions of electron density. These regions repel each other by equal amounts so the resultant bond angles between each carbon atom is 120 degrees, a trigonal plainer, making ethene a flat plainer molecule.

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2
Q

Why is ethene important?

A

Ethene is obtained from catalytic cracking of long hydrocarbons in crude oil. The most important use of ethene is its use in the polymer industry.

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3
Q

how is the C=C bond formed?

A

Covalent bonds will be formed by the sharing of electrons between the orbitals in the carbon atom. 1. The C=C bond consists of 2 types of bonds; the sigma bond and the pi bond.2. The sigma bond is formed by the end-on overlap of orbitals. Each carbon contributes 1 electron to the bonding pair of electrons. This is the best overlap and thus the bond is the strongest.3. The pi bond consists of 2 halves formed by the side-on overlap of p-orbitals from both carbon atoms, one above the plane of the carbon atoms and one below. Each carbon contributes 1 electron to the bonding pair. This overlap is less good compared to the sigma bond so the pi bond is weaker.

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4
Q

What are stereoisomers?

A

Compounds with the same structural formula but with a different arrangement of the atoms in space.

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5
Q

What is E/Z isomerism?

A

A type of stereoisomerism in which different groups attached to each carbon of a C=C double bond may be arranged differently in space because of the restricted rotation of the C=C bond.

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6
Q

How does E/Z isomerism arise?

A

Due to the restricted rotation of the C=C double bond; if each carbon in the C=C bond is attached to 2 different groups, then these groups may be arranged differently in space in order to form E/Z isomers.

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7
Q

What is cis-trans isomerism?

A

A special type of E/Z isomerism in which there is a non-hydrogen group and a hydrogen group on each C of a C=C double bond: the cis isomer (Z isomer) has the H atoms on each carbon on the same side; the trans (E isomer) has H atoms on each carbon on different sides.

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8
Q

What addition reactions do alkenes take part in?

A
  1. Addition of hydrogen halide: Gaseous hydrogen halide is bubbled through liquid alkenes at room temperature to form halogenoalkanes.2. Addition of steam (hydration of alkenes): Steam and gaseous alkenes are passed over concentrated phosphoric acid catalyst at high temperature and pressure to produce alcohols.3. Addition of halogens: Gaseous alkenes are bubbled through aqueous halogens or liquid alkenes are mixed with aqueous halogens to form di-halogenoalkane.4. Addition of hydrogen: Gaseous hydrogen and alkenes are passed over nickel catalyst at temperatures of 150 degrees Celsius to form alkanes.
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9
Q

Addition reactions of unsymmetrical alkenes.

A

If the alkene is unsymmetrical across the the C=C bond and the molecule being added is also unsymmetrical, then a mixture of products will be formed.

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10
Q

What is an electrophile and what is electrophilic addition?

A

An atom or group of atoms that is attracted to an electron-rich centre or atom, where it accepts a pair of electrons to form a new covalent bond. The process is called electrophilic addition.

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11
Q

What is the mechanism of electrophilic addition?

A
  1. Pair of electrons in the pi bond attracted to the slightly positive atom in the polar molecule.2. Pi bond breaks and electron pair moves to form a new C-H bond with one of the carbons in the C=C bond, leaving the other carbon with a positive charge.3. H-X bond breaks by heterolytic fission and both electrons go to X molecule, forming an anion.4. Carbocation reacts with the anion, with a lone pair on the anion used to form a new C-X bond.
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12
Q

How can non-polar molecules take part in electrophilic addition reactions?

A

The electrons in the C=C bond repel electrons in the non-polar molecule, creating an induced dipole across the non-polar molecule.

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13
Q

What is addition polymerisation?

A

The process of unsaturated alkene molecules being added to a polymer chain individually to form a long, saturated molecular chain.

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14
Q

How is margarine formed from the hydrogenation of vegetable oil?

A

Vegetable oil is usually liquid at room temperature because it contains a large proportion of unsaturated fats (fats containing lots of C=C bonds). In order to harden vegetable oil, many of these C=C bonds need to be broken. The process of hydrogenation is used to break these bonds. Hydrogen gas is passed through vegetable oil in the presence of nickel catalyst which breaks some of the C=C bonds by adding hydrogen atoms across them. The reduced number of C=C bonds means that the vegetable oil can harden at room temperature, forming margarine.

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15
Q

What is percentage yield?

A

Percentage yield is the measure of how efficient a reaction is at producing products, or:(Actual amount, in mol, of product)/(Theoretical amount, in mol, of product)*100.

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16
Q

What is atom economy?

A

Atom economy is a measure of how good a reaction is at producing useful products, or:(Molecular mass of the desired product)/(Sum of molecular masses of all products)*100.

17
Q

Why is it important to sort plastics before recycling them?

A

Some plastics cannot be mixed with each other during recycling. For example, small quantities of PVC can render a large batch of PET useless.

18
Q

What are some recycling techniques for polymers?

A
  1. Polymers can be burnt under controlled conditions to release heat energy. This heat energy can then be used to boil water and turn electricity generator turbines.
  2. Polymers can be broken down into hydrogen and carbon monoxide which can be used as feedstock chemicals in the production of fuels and other products.
  3. Reclamation: Once plastics are separated, they can be ground into flakes and melted down and remoulded to make new plastic products.
19
Q

Why is PVC recycling a problem?

A
  1. PVC cannot be reclaimed as it releases toxic fumes when heated.
  2. For the same reason, PVC cannot easily be incinerated. However, it is possible to detect such fumes like HCl gas and remove them before they leave the plant, minimising environmental impact.
  3. PVC can be dissolved in solvent and precipitated out. This method can be used to reclaim high quality PVC.
20
Q

What criteria must bioplastics meet?

A
  1. They must break down due to bacterial activity.

2. They must break down in the presence of carbon dioxide, water and other biomass.

21
Q

What are bioplastics being used for?

A
  1. Disposable cutlery and plates.
  2. Disposable drinking cups.
  3. Supermarket bags and bin liners.
22
Q

What materials are bioplastics made from?

A

Starch, cellulose, maize and lactic acid. These are 100% natural compounds and will biodegrade in the time it take normal biomass to.