СОР_Химия_ОГН_11 класс англ

11.4.2.1

Study the hybridization of carbon in hydrocarbons;

11.4.2.2

Explain the structural features of the carbon atom and the

ability to form a C-C bond;

11.4.2.5

List types of isomerism and formulate isomer formulas:

structural,bondingpositions,functionalgroups,and

interclasses;

11.4.2.6

Form an understanding of the structure of free radicals;

11.4.2.10

Compose the structural formulas of compounds and name

according to the IUPAC nomenclature

1.

2.

• How many primary, secondary, tertiary and quaternary carbons are present in the following hydrocarbon:

CH3−CH(CH3)−C(CH3)2−CH2−CH(CH3)−CH2−CH3

• • Primary-6 Secondary-2 Tertiary-2 Quaternary-1
  • Primary-2 Secondary-6 Tertiary-3 Quaternary-0
  • Primary-2 Secondary-4 Tertiary-3 Quaternary-2
  • Primary-2 Secondary-2 Tertiary-4 Quaternary-3

• Define the term “electronic configuration”

• Write the ground state electronic configuration of carbon

• Write the excited state electronic configuration of carbon

3.

• Draw all the isomers of C2H2Br2 which contain a carbon-carbon double bond and name them.

• Two isomers with the formula C4H9OH are given below:

IsomerNameType of isomerism

Complete the naming of the isomers in the table above. Name the type of isomerism shown by these isomers.

4.

Alkanes react with halogens in a reaction described as homolytic free radical substitution.

• Explain what is meant by the terms:

• • homolytic:
  • free radical:

• What are examples of free radicals?

5.

The hydrocarbon but-1-ene (C4H8) is a member of the homologous series of alkenes. But- 1-ene has structural isomers.

• Draw the displayed formula of a functional group isomer of but-1-ene and name it:

Name

• Draw the structure for each compound:
  • 4-ethyloctane:
  • 3-ethyl-2-methylpentane:
  • 3,3,5-trimethylheptane:

Assessment criteria

Task

Mark

Determinethe hybridization of carbon in hydrocarbons

Explain the structural features of the carbon atom and the ability to form a C-C bond

Determine the types of isomerism

Compose the isomers: structural, bonding positions, functional groups, and interclasses

3(a)

(b)

Describe the structure of free radicals

Construct the structural formulas of compounds Name the organic compounds according to theIUPAC

nomenclature

Assessment criteria

Determinethe

hybridizationof

carbonin

hydrocarbons

Explainthe structural features of the carbon atom and the ability to form a C-C bond

Determine the types of isomerism Composethe isomers: structural, bondingpositions, functionalgroups,

and interclasses

Describethe structure of free radicals

Constructthe

structural formulas of compounds Name the organic compounds accordingtothe IUPAC

nomenclature

11.4.2.14

11.4.2.15

11.4.2.17

11.4.2.20

11.4.2.22

Know the products of combustion of alkanes and assess their impact on the environment;

Determine the molecular formula of the substance according to the combustion products;

Consider the homologous series, structure, chemical and physical properties of cycloalkanes;

Be able to make polymerization reactions (polyethylene, polypropylene, polyvinyl chloride);

Know the qualitative reactions to alkenes (unsaturation)

1.

2.

3.

• Identify the compound with the highest ring
  • Cyclomethane
  • Cyclopropane
  • Cyclobutane
  • Cyclopentane

• Identify the incorrect statement regarding cyclohexane:
  • It is non-polar
  • It serves as an organic solvent
  • It a hydrophilic hydrocarbon
  • It is commercially used for a variety of applications

• Which among the following compounds explodes with oxygen:
  • Cyclopropane
  • Cyclobutane
  • Cyclopentane
  • Cyclohexane

4.

"PVC" is the polymer that formed from the polymerization of chloroethene.

• Write a chemical equation for this reaction

• Write the structure of PVC polymer chain that contain three repeating units
• What is one of the properties of PVC

5.

• Describe a simple chemical test to determine whether an unknown hydrocarbon is unsaturated

• Describe the result if the test is positive:

Assessment criteria

Task

Mark

Determine the products of combustion of alkanes

Evaluate the impact of the products of combustion of alkanes on the environment

Determinethe molecular formula of the substance according to the combustion products

Distinguishesthe

homologous series, structure, chemical and physical properties of cycloalkanes

Compose the equations ofpolymerization reactions (polyethylene, polypropylene, polyvinyl chloride)

Describe the qualitative reactions to alkenes (unsaturation)

Assessment criteria

Determinethe

productsof

combustionof alkanes

Evaluate the impact of the products of combustionof alkanes on the

environment

Experiences difficulties indetermining the products of combustion ofalkanesandtheir impactonthe environment

Completely determinesthe

productsof

combustion of alkanes and their impact on the environment

Determinethe molecularformula ofthesubstance according to the combustion products

Experiences difficulties indeterminingthe molecular formula of the substance according to the combustion products

Completely determinesthe molecular formula of thesubstance accordingtothe combustion products

Distinguish the homologous series, structure, chemical andphysical propertiesof cycloalkanes

Experiences difficulties in distinguishing the structure, chemical and physical properties of cycloalkanes

Completely distinguishesthe structure,chemical andphysical propertiesof cycloalkanes

Composethe

equationsof polymerization reactions (polyethylene, polypropylene, polyvinyl chloride)

Experiences difficulties in composing the polymerization reaction and constructing the structure based on the repeating units

Completely composes the polymerization reactionand

constructsthe structure based on the repeating units

Describethe qualitative reactions toalkenes

(unsaturation)

Experiences difficulties indescribingthe qualitative reactions to

alkenes

Completely describes thequalitative reactions to alkenes

alkenes

11.4.2.23

Know the structure, properties of alkadienes;

11.4.2.26

Consider the homologous series of alkynes, the structure,

physical and chemical properties, methods for their

production;

11.4.2.27

Explain the structure of the benzene molecule from the

point of delocalization of electrons;

11.4.2.28

Write reactions for the production of benzene and its

homologues;

11.4.2.29

Describe the properties characteristic of benzene and its

homologues

20 minutes

1.

2.

• Select the incorrect statement
  • The addition reactions occur more frequently in the alkenes than the alkynes
  • The pi system of the alkynes gets weakened when they lose the pi atoms
  • Alkynes readily undergo oligomerization
  • Alkynes do not undergo polymerization

• Alkynes cannot be prepared from
  • Ketones
  • Alcohols
  • Aldehydes
  • Other alkynes

• Identify the incorrect statement

• • Alkynes exist in a gaseous state
  • They are soluble in water
  • They are soluble in organic solvents
  • Alkynes have a very good boiling point

3.

• Identify the correct statement which is related to an aromatic hydrocarbon

• • It has only sigma bonds
  • It has only pi bonds
  • It has a sigma and two pi bonds
  • It has a sigma and delocalized pi bond

• Define the term ‘delocalised electrons’ in terms of the structure of benzene

4.

Compose the equations of the reactions for the

• production of benzene from acetylene
• production of benzene from cyclohexane
• production of toluene from methylcyclohexane

5.

The characteristic reactions of benzene are substitution reactions in which one or more hydrogen atoms are replaced with another atom or group of atoms.

• Write the equation for the reaction of benzene with chlorine in the presence of an iron (III) chloride catalyst:
• Name the type of mechanism for the reaction mentioned in a(i)
• Draw the mechanism of the reaction mentioned in a(i) using curly arrows to show the movement of electron pairs

• Two equations below show the alkylation and acylation of benzene, which can be used to produce the monosubstituted products.

• • Complete the following equations

reaction1C6H6+CH3CH2CH2Cl→+

Assessment criteria

Task

Mark

Describe the structure, properties of alkadienes

Distinguishthe homologous series of alkynes, the structure, physical and chemical properties, methods for their production

Explain the structure of the benzene molecule from the point of delocalizationof

electrons

Compose reactions for the production of benzene and its homologues

4

• composes equation of benzene production from acetylene;
• composes equation of benzene production from cyclohexane;
• composes equation of toluene production from methylcyclohexane;

3

Describethe

characteristic properties of benzene and its homologues

Assessment criteria

Describethe structure, properties of alkadienes

Distinguishes the homologous series of alkynes, the structure, physical andchemical

properties, methods for their production

Explainsthe structure of the benzene molecule from the point of delocalization of electrons

Compose reactions for the production of benzene and its homologues

Describethe characteristic properties of benzeneandits homologues

11.4.2.40

Compose structural formulas of alcohols, aldehydes, and

ketones, carboxylic acids, ethers and name them according

to IUPAC;

11.4.2.42

Know the methods of obtaining alcohols and phenols;

11.4.2.43

Compose the equations of reactions characterizing the

chemical properties of alcohols and phenols;

11.4.2.49

Name the products of oxidation and reduction of aldehydes

and ketones;

Explain the physical properties and methods of producing

11.4.2.50

carboxylic acids

20 minutes

1.

2.

(c) Write the structural formula of each ester formed in (b)

3.

• Which one of the following cannot be produced by oxidation of propane-l-ol?
  • Carbon dioxide
  • Propanone
  • Propanal
  • Propionic acid

• Draw the structure of an alcohol-containing four carbon atoms which is resistant to oxidation

• (i) Determine the product formed when phenol reacts with bromine in carbon disulphate at low temperature

• • m-bromophenol
  • o-and p-bromophenol
  • p-bromophenol
  • 2,4,6-tribromophenol

• Write a balanced equation for the reaction in c)(i)

• Bromine reacts with phenol and turns its color from orange into .

• White precipitate
• Pink precipitate
• Blue precipitate
• Black precipitate

4.

• Write a balanced equation for the reaction that takes place when propanal is warmed with an aqueous alkaline solution of sodium tetrahydridoborate, using the symbol [H] to represent a hydrogen atom as the reducing agent:

• Name the product formed in the reduction reaction if pentan-3-one is added to lithium tetrahydridoaluminate in dry ether:

• Which of the following reactions is not characteristic for ketones:
  • Reaction with HCN
  • Reaction with NaHSO3
  • Reaction with 2,4-dinitrophenyl hydrazine
  • Reaction with Fehling solution

5.

• Acetic acid is obtained when which of the given reaction takes place
  • Methyl alcohol is oxidised with potassium permanganate
  • Calcium acetate is distilled in the presence of calcium formate
  • Acetaldehyde is oxidised with potassium dichromate and sulphuric acid
  • Glycerol is heated with sulphuric acid

• Compare the boiling points of butanoic acid (molar mass 88) and 2-pentanone (molar mass 86) and explain your opinion

Explanation

Assessment criteria

Task

Mark

Constructstructural

1(a)

gives the IUPAC name for each compound;

2

formulaeofalcohols,

aldehydes and ketones, carboxylic acids, ethers

Namethealcohols,

(c)

writes the structural formula of esters;

2

aldehydes and ketones,

carboxylic acids, ethers

according to IUPAC

Determine the methods of obtaining alcohols and phenols

Compose and balance the equations of reactions characterizing the chemical properties of alcohols and phenols

Determine the products of oxidation and reduction of aldehydes and ketones

Describe the physical properties and methods of producing carboxylic acids

Assessment criteria

Construct structural formulasof alcohols, aldehydes andketones, carboxylic acids, ethers

Name the alcohols, aldehydesand ketones, carboxylic acids,ethers according to IUPAC

Determines the

methodsof obtaining alcohols and phenols

Composeand

balancethe

equationsof reactions characterizingthe chemical properties ofalcoholsand phenols

Determinethe

productsof

oxidationand

reductionof

aldehydesand ketones

Describethe

physical properties andmethodsof producing carboxylic acids

11.5.1.1

Compose the reaction equation for the preparation of

ethers and esters;

11.5.1.5

Name the products of hydrolysis and saponification of

fats;

11.5.1.6

Know the difference in the formulas of the molecules of

glucose, fructose, ribose, deoxyribose, sucrose, starch

and cellulose;

11.5.1.8

Compose the equations for the reactions of alcoholic,

lactic fermentation of glucose;

11.5.1.11

Compare the structure and properties of starch and

cellulose

1.

2.

• Which of the following term describe saponification
  • Cleaving of ester molecules into carboxylic acid and alcohol
  • Dehydration synthesis by removing water
  • Hydrolysis of salt by adding a weak acid
  • Synthesis of two alkyl groups to make an ether

• Which of the following compound is an industrial manufacturing product by hydrolysis
  • Sodium chloride
  • Potassium hydroxide
  • Glycerol
  • Sodium hydroxide

3.

• Which of the following is not a disaccharide
  • Sucrose
  • Maltose
  • Lactose
  • Galactose

(b) Identify the differences among glucose, fructose and sucrose

(c) Classify each sugar as an aldose or a ketose and then as a triose, tetrose, pentose, or hexose

(d) When an aqueous solution of trehalose is heated, two molecules of glucose are produced for each molecule of trehalose. Is trehalose a monosaccharide, a disaccharide, or a polysaccharide?

4.

Compose the balanced equation for the reaction of

• lactic fermentation of glucose:
• alcoholic fermentation of glucose:

5.

Fill the table. Place a “tick” in the box if the statement is correct, place an “x” in the box if it is incorrect.

StatementStarchCellulose

Storage molecule in plants The polymer of beta glucose

Strengthened by thousands of hydrogen bonds

A mixture of two polysaccharides

Assessment criteria

Task

Mark

Compose the equations of the reaction for the preparation of ethers

and esters

Determine the products of hydrolysis and saponification of fats

Describe the difference in the formulae of the molecules of glucose, fructose,ribose, deoxyribose, sucrose, starch and cellulose

Compose the equations for the reactions of alcoholic and lactic fermentation of glucose

Compare the structure

and properties of starch and cellulose

5

compares the structure and properties of starch and cellulose.

4

20

Assessment criteria

Composethe reaction equation for the preparation of ethers and esters

Experiences difficulties in describing the reaction equation for the preparation of ethers and esters

Makes some mistakes in describing the reaction equation for the preparation of ethers and esters

Completely describes the reaction equation for the preparation of ethers and esters

Determinethe

productsof

hydrolysisand

saponificationof fats

Experiences difficulties determiningthe products of hydrolysis and saponification of fats

Makes some mistakes determiningthe products of hydrolysis and saponification of fats

Completely determinesthe products of hydrolysis and saponification of fats

Describethe difference in the formulae of the moleculesof glucose, fructose, ribose, deoxyribose, sucrose, starch and cellulose

Experiences difficulties in determining the difference in the formulas of the molecules of glucose, fructose,ribose, deoxyribose, sucrose, starch and cellulose

Makes some mistakes when determining the difference in the formulas of the molecules of glucose, fructose,ribose, deoxyribose, sucrose, starch and cellulose

Completely determines the differenceinthe formulasofthe molecules of glucose, fructose,ribose, deoxyribose, sucrose, starch and cellulose

Composethe equations for the reactionsof

alcoholic, lactic fermentation of glucose

Experiences difficulties in describing the equations for the reactions of alcoholic, lactic fermentation of glucose

Makes some mistakes in describing the equations for the reactions of alcoholic, lactic fermentation of glucose

Completely describes the equations for the reactions of alcoholic, lactic fermentation of glucose

Comparethe

structureand properties of starch and cellulose

Experiences difficulties in comparing the structure and properties of starch and cellulose

Makes some mistakes when comparing the structureand properties of starch and cellulose

Completely compares the structure and properties of starch and cellulose

11.4.2.55

11.5.1.12

11.5.1.14

11.5.1.16

11.5.1.20

Comparethestructuresandbasicpropertiesof ammonia, amines, and aniline

Know the trivial and systematic names of amino acids Consider amphoteric amino acids

Know the products of protein hydrolysis Compare the structures of DNA and RNA

20 minutes

1.

2.

3.

Explain the amphoteric properties of 2-aminobutanoic acid composing the equations with following reagents:

hydrochloric acid sodium hydroxide

4.

Phenylalanylvaline has the structure represented below

Write equation for the acidic hydrolysis of the phenylalanylvaline

5.

(a) Compare the structures of DNA and RNA by filling the table below

DNARNA

Shape Pentose sugar Base

Location

• In DNA, nitrogenous bases occur in complementary pairs.
  • Explain the term “complementary pair”

• • Name the complementary base in RNA for:

Adenine Cytosine

• Name a component of a nucleotide that is neither a carbohydrate nor a nitrogenous base.

Assessment criteria

Task

Mark

Compare and explain the structures and basic properties of ammonia, amines, and aniline

Name amino acids by the trivial and systematic names

2

gives the systematic name for alanine and for glycine;

2

Describe the amphoteric properties of amino acids

3

writes the reaction of 2-aminobutanoic acid with hydrochloric acid AND with sodium hydroxide;

2

Determine the products

of protein hydrolysis

4

writes equation for acid-catalyzed hydrolysis of

the phenylalanylvaline;

3

Compare the structures of DNA and RNA

Assessment criteria

Compareand

explainthe structures and basic propertiesof ammonia, amines,

and aniline

Name amino acids

by the trivial and systematic names

Describethe amphoteric properties of amino acids

Determinethe products of protein hydrolysis

Comparethe structures of DNA and RNA

11.4.2.58

11.4.2.59

11.4.2.60

11.5.1.23

11.4.1.3

Distinguish between the concepts of monomer, elementary link, oligomer, polymer,

Composetheequationofthepolymerizationand polycondensation reaction degree of polymerization

Name the properties and applications of certain polymers and plastics

Describe the functions of vitamins, hormones in the human body

Explain the difference in the problem of the 'greenhouse effect' and the destruction of the ozone layer

1.

Column A

Column B

PVC

Non-stick cookware – plastics

Teflon

Fabric

Bakelite

Tubes, Pipes

Nylon-6

Electrical plugs and sockets

Assessment criteria

Task

Mark

Explain the concepts of “monomer”, “elementary unit”,“oligomer”, “polymer”, “degree of polymerization”

Describe the structure of additionand

condensation polymers Compose the equations of theaddition

polymerization and polycondensation reactions

Describe the properties and applications of certain polymers and plastics

Describe the functions of vitamins, hormones in the human body

4

explains the term vitamins and gives examples;

1

Compare the differences between

“greenhouseeffect” problem and the destruction of the ozone layer

5

Explains the difference between the “enhanced greenhouse effect” and “ozone depletion”.

2

20

Assessment criteria

Explainthe

conceptsof “monomer”, “elementaryunit”, “oligomer”, “polymer”, “degree of polymerization”

Experiences difficulties when distinguishes between the concepts of monomer, elementary link, oligomer, polymer, degreeof

polymerization

Makes some mistakes when distinguishes between the concepts ofmonomer, elementarylink, oligomer, polymer, degreeof

polymerization

Completely distinguishes between theconceptsof monomer, elementary link,oligomer, polymer,degreeof polymerization

Describethe structure of addition and condensation polymers

Compose the equationsofthe addition polymerization and polycondensation reactions

Experiences difficulties when describes the structure of addition and condensation polymers and composes equations of the polymerization and polycondensation reactions

Makes some mistakes whendescribesthe structure of addition andcondensation polymersand composes equations of the polymerization and polycondensation reactions

Completely describes thestructureof addition and condensation polymersand composes equations of the polymerization and polycondensation reactions

Describethe

propertiesand

applications of certain polymers and plastics

Experiences difficulties when gives the name of the properties and applications of certain polymers and plastics

Makes some mistakes when gives the names of the properties and applications of certain polymers and plastics

Completely gives the names of the

propertiesand applications of certain polymers and plastics

Describethe

functionsof vitamins, hormones in the human body

Experiences difficulties when describes the functions of vitamins in the human body

Makes some mistakes when describes the functions of vitamins in the human body

Completely describes the functions of vitamins in the human body

Comparethe differences between “greenhouse effect” problem and the destruction of the ozone layer

Experiences difficulties in explaining the difference in the problem of the 'greenhouse effect' and the destruction of the ozone layer

Makes some mistakes when explains the difference in the problem of the 'greenhouse effect' and the destruction of the ozone layer

Completely explains the difference in the problem of the 'greenhouse effect' and the destruction of the ozone layer