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Quiz about Polymers  What You Need To Know
Quiz about Polymers  What You Need To Know

Polymers - What You Need To Know Quiz


Polymers - what the heck are they!? This quiz, which becomes gradually more difficult as you progress, attempts to fully answer this question. Good luck!

A multiple-choice quiz by doublemm. Estimated time: 5 mins.
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Author
doublemm
Time
5 mins
Type
Multiple Choice
Quiz #
318,489
Updated
Dec 03 21
# Qns
10
Difficulty
Average
Avg Score
6 / 10
Plays
1215
- -
Question 1 of 10
1. Firstly, polymers are long chains which are made up of many molecules known as monomers. These monomers can be anything from amino acids, to alkenes, to alcohols. What all polymers have in common is the type of bond which holds their monomers together. What type of bond is this? Hint


Question 2 of 10
2. There are two main types of polymerization, the first being addition. Which of these is a requirement of monomers in order to undergo addition polymerization? Hint


Question 3 of 10
3. Polymers formed via addition polymerization are often used as plastics. The atoms/groups which make up the monomers determine the properties of the plastic. An example of this is polystyrene. Which monomers join together to form polystyrene? Hint


Question 4 of 10
4. Whilst the plastics formed by addition polymerization reactions are useful for many things, numerous problems arise when they are disposed of. One method of reducing these problems is by chemical recycling. Which word is used to describe the breaking down of long chained polymers into shorter chained ones, as it happens in chemical recycling? Hint


Question 5 of 10
5. As mentioned earlier, there are two main types of polymerization, the second of which is condensation polymerization. During a condensation polymerization reaction, many monomers join together. What is lost when two monomers join together via a condensation reaction? Hint


Question 6 of 10
6. As mentioned previously in this quiz, proteins (polypeptides) and carbohydrates (polysaccharides) are both polymers. True or false, the third of the major biological molecules, the lipids, cannot be described as polymers.


Question 7 of 10
7. Still on biological molecules, the incredible length of these polymers (sometimes tens of thousands of monomers) often results in the formation of a tertiary, 3-D structure. An example of this is in globular proteins. Which of these is NOT a force of attraction which usually acts between the different sections of the polypeptide chain of a globular protein? Hint


Question 8 of 10
8. One major group of condensation polymers are the polyesters. Typically, these are made up of two different monomers which are arranged alternately along the length of the polymer chain. An example of polyester is Terylene. In what everyday item is terylene often found? Hint


Question 9 of 10
9. Another group of condensation polymers are the polyamides. Natural examples of polyamides are proteins. Which artificial polyamide is often used in the manufacture of crash helmets and bullet proof vests? Hint


Question 10 of 10
10. When non-symmetrical alkenes polymerize (such as chloroethene - which makes up PVC), there 3 ways in which the groups can be arranged in 3-D space. For example, if all of the -Cl groups in polychloroethene (PVC) were arranged in the same direction in 3-D space, the polymer would be described as isotactic. What term is used to describe a polymer where the groups are arranged randomly? Hint



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Quiz Answer Key and Fun Facts
1. Firstly, polymers are long chains which are made up of many molecules known as monomers. These monomers can be anything from amino acids, to alkenes, to alcohols. What all polymers have in common is the type of bond which holds their monomers together. What type of bond is this?

Answer: A covalent bond

A covalent bond is the sharing of a pair of electrons between two atoms. The shared pair of electrons is attracted to the nuclei of both the bonding atoms.

Whilst all polymers are made up of monomers joined together by covalent bonds, the type of covalent bond varies from polymer to polymer depending on the groups involved in the covalent bond. For example, if two sugars (monosaccharides) join together, they are joined by a glycosidic bond. If two amino acids join together, they are joined by a peptide bond. If an alcohol group joins with a carboxyl group, they are joined by an ester bond.
2. There are two main types of polymerization, the first being addition. Which of these is a requirement of monomers in order to undergo addition polymerization?

Answer: The presence of a carbon to carbon double bond

An ethene molecule is made up of two carbon atoms, each covalently bonded to two hydrogen atoms and joined to each other by a carbon to carbon double bond.

A carbon to carbon double bond is made up of a sigma bond - formed when two atomic orbitals overlap singly, and a pi bond - formed when two p-orbitals overlap doubly. The pi bond is located above and below the plane of the carbon to carbon single (sigma) bond.

In the right conditions (usually high pressure, high temperature, and a catalyst) the double bond "splits" open and the pair of electrons which previously formed the pi bond becomes available to form a single (sigma) bonds with carbon atoms of adjacent monomers.
3. Polymers formed via addition polymerization are often used as plastics. The atoms/groups which make up the monomers determine the properties of the plastic. An example of this is polystyrene. Which monomers join together to form polystyrene?

Answer: Phenylethene

Polystyrene is often used as protective packaging.

Phenylethene is made up of two carbon atoms, one joined to two hydrogen atoms, the other joined a hydrogen atom and a phenyl (benzene) group. The alternate name of phenylethene is styrene.

Ethene monomers join together to form polythene (polyethylene). This can be used to make sandwich bags, cling film, and water pipes.

Chloroethene monomers polymerize to form polyvinylchloride (PVC). This is used for window frames, roofing, and clothing.
4. Whilst the plastics formed by addition polymerization reactions are useful for many things, numerous problems arise when they are disposed of. One method of reducing these problems is by chemical recycling. Which word is used to describe the breaking down of long chained polymers into shorter chained ones, as it happens in chemical recycling?

Answer: Cracking

Other methods of disposal include melting plastics down to be reused (recycling) or burning as a fuel. However, both of these methods are likely to produce toxic gases which could harm the environment. Polymers which contain chlorine are a particular problem, as they produce the acidic HCl gas when burned. Many factories have tried to combat this by placing alkaline gas scrubbers in chimneys where the acidic gas would usually escape.

Cracking is also used in the refinery process - this usually follows fractional distillation and is used to convert crude oil into more useful substances. The cracking of a hydrocarbon will produce a shorter chained hydrocarbon (which is more useful as fuel) and an alkene (which can be used to make other polymers). Other refinery processes include reforming - converting straight chained hydrocarbons in cyclic (ringed) hydrocarbons, and isomerism - converting straight chained hydrocarbons into branched hydrocarbons.
5. As mentioned earlier, there are two main types of polymerization, the second of which is condensation polymerization. During a condensation polymerization reaction, many monomers join together. What is lost when two monomers join together via a condensation reaction?

Answer: Water

The water is formed when an -OH group from one monomer and the -H atom from another are lost, joining together to form H2O.

Examples of condensation polymerization reactions include the joining together of amino acids to form a polypeptide and the joining together of di-carboxylic acids to di-alcohols to form polyesters.

As water is lost during the formation of condensation polymers, the addition of water does the exact opposite - breaks the bond. This is known as hydrolysis.
6. As mentioned previously in this quiz, proteins (polypeptides) and carbohydrates (polysaccharides) are both polymers. True or false, the third of the major biological molecules, the lipids, cannot be described as polymers.

Answer: True

Polymers are long chained molecules, with no limit to the number of monomers which can make it up. This is shown in polypeptides, which can be made up of tens of thousands of amino acids. Conversely, lipids are only made up of one molecule of glycerol which is covalently bonded to three fatty acids via ester bonds.

A glycerol molecule is made up of a 3 carbon "backbone" and only possesses three -OH groups. It can therefore only bond with up to three fatty acids.

The type of monomer which makes up these biological molecules determines the properties and uses of the molecule formed. For example, with polysaccharides, alpha-glucose polymerizes to form starch, however, if beta-glucose polymerizes, it will form cellulose. The two molecules (alpha and beta-glucose) have identical molecular formulae, and their structural formulae differ by the positions of only two groups (the -H and -OH groups on carbon-1 of alpha-glucose are the opposite way round in beta-glucose). Despite the two monomers being extremely similar in structure, the polymers are entirely different - starch being coiled, compact and used for storage, whilst cellulose is straight and used for structure.
7. Still on biological molecules, the incredible length of these polymers (sometimes tens of thousands of monomers) often results in the formation of a tertiary, 3-D structure. An example of this is in globular proteins. Which of these is NOT a force of attraction which usually acts between the different sections of the polypeptide chain of a globular protein?

Answer: Metallic bonds

The two main tertiary structures of a protein are globular and fibrous. Whilst globular proteins are almost spherical in shape and are soluble, fibrous proteins are rope-like strands which are insoluble. Haemoglobin and enzymes are examples of globular proteins. Collagen and keratin are examples of fibrous proteins.

As well as the incorrect answer options (ionic bonds, Van der Waals' forces, and hydrogen bonds) the di-sulphide bridge (a type of covalent bond) is the forth interaction which can occur between different sections of the polypeptide chain in the tertiary structure of a protein.

Whilst ionic bonds and the di-sulphide bridge are classed as intramolecular bonds, the hydrogen bond is classed as an intermolecular bond. The hydrogen bond is both the strongest intermolecular force and one of the most commonly occurring forces of attraction in biological molecules.
8. One major group of condensation polymers are the polyesters. Typically, these are made up of two different monomers which are arranged alternately along the length of the polymer chain. An example of polyester is Terylene. In what everyday item is terylene often found?

Answer: Soft drink bottles

Terylene is made up of ethane-1,2-diol and benzene-1,4-dioic acid, which alternate along the length of the polymer chain. The -OH group from the benzene-1,4-dioic acid and the -H atom from the ethane-1,2-diol are lost and join to form water, leaving the monomers to join together via an ester bond.

Polyesters are also commonly found in clothing.
9. Another group of condensation polymers are the polyamides. Natural examples of polyamides are proteins. Which artificial polyamide is often used in the manufacture of crash helmets and bullet proof vests?

Answer: Kevlar

Kevlar is made up of benzene-1,4-dioic acid and benzene-1,4-diamine. As a condensation reaction, water is lost as the monomers join to form the polymer. It is the high tensile strength of Kevlar which allows it to be used in things such as crash helmets.

Nylon 6,6 is made up of 1,6-diamino hexane and hexane-1,6-dioic acid. The resulting amide bond is identical to the peptide bonds found in proteins. Nylon 6,6 is used in clothing.

Wool, whilst technically being a polyamide, is naturally occuring.
10. When non-symmetrical alkenes polymerize (such as chloroethene - which makes up PVC), there 3 ways in which the groups can be arranged in 3-D space. For example, if all of the -Cl groups in polychloroethene (PVC) were arranged in the same direction in 3-D space, the polymer would be described as isotactic. What term is used to describe a polymer where the groups are arranged randomly?

Answer: Atactic

The third way that an asymmetric alkene can polymerize is syndiotactitcally - with groups alternating towards and away from you in 3-D space.

The main significance of the way in which non-symmetrical alkenes polymerise is in their melting points. The more regular the polymer chain is (with isotactic being the most regular and atactic being the least) the more linear it is and the more able it is to lie closely next to other chains. The more closely these chains can get to each other, the more intermolecular bonds form between them. This is particularly important in the plastic industry, as the strength (a quality determined by intermolecular forces) of a plastic determines its function.
Source: Author doublemm

This quiz was reviewed by FunTrivia editor crisw before going online.
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