Organic Chemistry Student 1 PDF

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This document contains an organic chemistry test. It has a variety of questions about various organic compounds. This document is ideal for high school students studying organic chemistry.

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Organic Chemistry
Wendy Kendy T. Lannaon
Terms To Know
Hydrocarbon
Alkane
Alkene
Alkyne
Saturated
Unsaturated
Petrochemicals
Functional Groups
Polymers
Isomers
Skills To Master
Differentiating alkanes, alkenes, and alkynes
Differentiating saturated and unsaturated
compounds
1. Cyclic organic compounds possessing the properties
of aliphatic compounds are called ___ compounds.
a. Aromatic c. Carbocyclic
b. Homocyclic d. Alicyclic

2. The formula which represents the simple whole
number ratio of different atoms present in one
molecule of a compound is known as :
a. Molecular formula c. Condensed formula
b. Empirical formula d. Electron dot formula
3. An organic compound has empirical formula
CH2O and molecular weight 90. It’s molecular
formula will be :
a. C6H12O6 c. C2H4O2
b. C3H6O3 d. C3H9O6
4. General formula of an alkene is :
a. CnH2n c. CnH2n-2
b. CnH2n+2 d. CnH2n-1
5. A hydrocarbon is found to contain 81.80%
carbon and 18.20% hydrogen. It’s empirical
formula will be:
a. C4H8 c. C3H8
b. C2H6 d. C3H
6. If two compounds have same empirical
formula but different molecular formula, they
must have :
a. Different percentage composition
b. Different molecular weight
c. Same viscosity
d. Same vapour density

7. Which of the following is an aromatic
compound :
a. Benzene hexachloride c. Cyclobutane
b. Cyclohexane d. Toluene
8. Which of the following is a heterocyclic aromatic
compound :
a. Nephthalene c. Furan
b. Benzene hexachloride d. Toluene

9. Which of the following belongs to a homologous
series ?
a. Methanol, Ethanol, ethanoic acid
b. Propane, Propene, propyne
c. Butane, 2-methylpropane, 2-methylbutane
d. Chloroathane, 2-chloropropane, 1-
chlorobutane
10. Which of the following is not true about homologous
series ?
a. Adjacent members of group differ by one –CH2 group.
b. Adjacent members of group differs by a mass of 14 amu.
c. Members of a group have same chemical and physical
properties.
d. Members of a group can be prepared by same general
methods.

a. Isomers c. allotropes
b. Homologues d. None

12. Alkanes are also called:
a. Paraffins c. Acetylene
b. Olefins d. Both ‘a’ and ‘b’
A. What is Organic Chemistry?
Organic chemistry is the study of carbon compounds
Organic compounds have carbon AND hydrogen
Carbon Dioxide is NOT organic
over 16 million carbon-containing compounds are known
because the C-C single bond (348 kJ mol-1) and the C-H bond (412
kJ mol-1) are strong, carbon compounds are stable
versatility and stability of carbon’s molecular structures provides the
enormous range of properties of its compounds
carbon can bond to other carbons
reason for the degree of structural complexity
carbon can form chains and rings
Organic Chemistry…
Carbon
Has 4 valence electrons
Makes 4 covalent bonds to fill its octet
Can include double and triple bonds
Hydrocarbon
Compound with only carbon and hydrogen
 B. Organic Chemistry in Everyday
Life
Smells & tastes: fruits, fish, mint
Medications: aspirin, Tylenol, decongestants, sedatives, insulin
Addictive substances: caffeine, nicotine, alcohol, narcotics
Hormones/Neurotransmitters: adrenaline, dopamine, serotonin
Food: carbohydrates, protein, fat, vitamins
Genetics: DNA, RNA
Consumer products: plastics, nylon, rayon, polyester
 Methane (CH4): A most Basic organic compound.
Ethanol (C2H5OH): A colourless liquid alcohol used as a
solvent, and fuel, and also used in alcoholic beverages.
Glucose (C6H12O6): A simple sugar that is an essential energy
source for living organisms.
Amino Acids: Amino acids are building blocks of life which
form all the proteins necessary for life to exist.
Chlorophyll (C55H72O5N4Mg): Green pigment in plants which
gives plants their green colour and help them make food as
well.
Vitamin C (C6H8O6): Vitamin C is a water-soluble vitamin
which is essential for the growth and repair of the human body.
DNA (Deoxyribonucleic Acid): A complex organic molecule
which stores the instruction for life.
Polymers: Large molecules made with repeating subunits
known as monomers. Some examples include polyethene and
polystyrene.
Organic Materials
Addition to previous notes
Before, it was stated that covalent compounds were
mostly liquid/gas at room temp
This is primarily for binary compounds (2 elements)
More complicated structures can be solid at room
temperature
 C. Classification of organic
compounds (Hydrocarbons)
organic compounds are defined as the hydrocarbons
(compounds containing carbon and hydrogen) and
their derivatives in which covalently bonded carbon is
an essential constituent
 General Formulas
Alkanes
Contains only single bonds
Cx H2x+2
Alkenes
Contains at least one double bond
Alkynes
Contains at least one triple bond
Alkenes and Alkynes are more reactive than alkanes
 Saturation
Saturated: a carbon chain contains as many
hydrogen as possible.
Saturated compounds contain only single C-H
bonds. Alkanes are saturated.

Unsaturated means that a carbon chain
contains at least one multiple (double or
triple) bond.
– Alkene = double bond
– Alkyne = triple bond
 Hydrocarbons
IUPAC Molecular Structural Boiling
name Formula Formula Point (°C).
Methane CH4 CH4 -161.5
Ethane C2H6 CH3CH3 -88.6
Propane C3H8 CH3CH2CH3 -42.1
Butane C4H10 CH3(CH2)2CH3 -0.5
Pentane C5H12 CH3(CH2)3CH3 36.1
Hexane C6H14 CH3(CH2)4CH3 68.7
Heptane C7H16 CH3(CH2)5CH3 98.4
Octane C8H18 CH3(CH2)6CH3 125.7
Nonane C9H20 CH3(CH2)7CH3 150.8
Decane C10H22 CH3(CH2)8CH3 174.1
1. Open chain organic
compounds
Organic compounds in which the terminal C-atoms
are not joined together are called open chain
compounds
Examples:
1.1. Alkanes
saturated hydrocarbons with general formula CnH2n+2
contain only carbon-carbon and carbon-hydrogen single bonds in
their molecules
also called paraffins (because they have a little affinity towards a
general reagent. In other words, alkanes are less reactive
substances. They undergo reactions under drastic conditions)

Alkanes are called saturated because all the possible sites (i.e. 4) are bonded with
other atoms.
But in alkenes and alkynes there is a possibility of addition of atoms or groups so
they are called unsaturated.
Some examples:
Methane - Natural gas
Ethane - Also natural gas
Propane - outdoor grills/home heating
Butane - lighters
Pentane, Hexane, Heptane, Octane, Nonane,
Decane - all found in gasoline
Candle wax - 20 or more carbon atoms
Road Tar - 40 or more carbon atoms
1.2. Alkenes
unsaturated hydrocarbons with general formula CnH2n
they contain at least one carbon to carbon double bond in
their molecules
Examples:

also called olefins ( i.e. oil forming because they form oily
liquids on reaction with chlorine gas)
1.3. Alkynes
unsaturated hydrocarbons with general formula
CnH2n-2
they contain at least one carbon to carbon triple
bond in their molecules
Examples:
2. Closed chain/cyclic compounds
Organic compounds in which the terminal
carbons are joined together to form a cyclic
structure

2.1. Homocyclic compounds
the ring forming atoms are only carbon
specifically called carbocyclic compounds
2.1.a. Alicyclic compounds
closed chain organic compounds whose
properties are similar to open chain aliphatic
compounds
Examples:
2.1.b. Aromatic compounds
benzene and those cyclic compounds that
chemically behave as benzene
Examples:

they obey Huckel’s rule
Huckel’s rule
states that a cyclic and planar molecule is
aromatic if it contains 4n+2 delocalized π
electrons, where n = 0,1,2,3,4,etc.
Example: benzene

HOW? : https://youtu.be/wvJ5V5cghOM
2.2. Heterocyclic compounds
at least one heteroatom (i.e. atom other than
carbon eg. N, O or S ) is present as one of the
ring forming atoms
Examples :
D. Formula of Organic Compounds
1. Molecular formula
2. Empirical formula
3. Electron-dot formula
4. Structural formula
5. Contracted or condensed formula
6. Bond-line formula
7. Spatial formula
 it represents actual number
of atoms of all the elements
present in one molecule of
the compound
1. Molecular Examples:
formula methane = CH4
ethane = C2H6
ethene = C2H4
benzene = C6H6 , etc.
 it represents simple whole
number ratio of atoms of all
the elements in one molecule
of the compound
2. Empirical Examples:
formula ethane = CH3
ethene = CH2
benzene = CH , etc
 in this formula
valence electrons are
represented by dots placed
around the chemical symbol
3. Electron- it is also called Lewis dot
formula
dot formula
Examples:
 it indicates how the atoms are
bonded in a molecule of the
compound
a.k.a. Kekule structural
4. Structural formula
formula Examples:
 it is the structural formula in
contracted form to save
space and time
5. Contracted
Examples:
or condensed
formula
 carbon and hydrogen atoms
6. Bond-line are not shown and only hetero
atoms are shown
formula
the point of intersection
represents carbon along with
required number of hydrogen
to satisfy the valency of carbon
 this formula represents the
7. Spatial three dimensional shape or
arrangement of atoms in the
formula molecule
Examples:
E. Functional Group
an atom or group of atoms in a molecule
which largely determines the chemical
properties of the organic compounds is
known as functional group
all the compounds having same functional
group show similar properties and constitute
a class or a family
 Example: Alcohol having an –OH as functional
group
 Other examples of functional group
 Homologous Series/Compounds
the series of organic compounds having same general
formula and similar chemical properties but different
physical properties in which one member differs from
other member by single – CH2 unit
Examples:

each member of homologous series is called homologue and phenomenon of
making homologous series is called homolog
 Characteristics of homologous series:
a. All the members of homologous series have
same functional group
b. All the members of homologous series have
same chemical properties
c. All the members of homologous series can
be prepared by a common method of
preparation
d. All the members of homologous series can be
represented by same general formula
CnH2n+2 = Alkane
CnH2n = Alkene
CnH2n-2 = Alkyne
CnH2n+1OH = Alcohol, etc
e. Their molecular masses increases gradually
hence their physical properties (e.g. melting
point and boiling point) changes gradually
- physical properties vary in regular manner as
the number of C atoms increases
 Structure and Physical Properties

Methane Ethane Propane Butane
16 g/mol 30 g/mol 44 g/mol 58 g/mol
-161.5oC -88.6oC -42.1oC -0.5oC

Larger molar mass = higher boiling point
Bigger compound – higher boiling point
f. Each member differs from the
adjacent member by methylene (-CH2-)
unit
 Trends in boiling points of members of a
homologous series
melting point and
Alkane Formula Boiling
boiling point increase
Pt./oC
with more carbon
atoms
methane CH4 -162.0
Why?
intermolecular forces
increase
adding a CH2 adds ethane C2H6 -88.6
more electrons
this increases the Van propane C3H8 -42.2
der Waal’s forces
butane C4H10 -0.5
 Petrochemicals
Simple, small hydrocarbons are petrochemicals
Chemicals isolated from crude oil (petroleum)
Octane – used in gasoline
Propane – used in grills, heaters, etc.
Butane – lighter fluid
 Polymers

Large molecules with many, many repeating
units, made from smaller molecules
CH2 CH2
n
Polyethylene
Polymer ex…
Nylon, Kevlar, and PVC are other examples of
manmade polymers

Nylon

PVC (polyvinyl chloride)
Natural polymers examples…

Proteins RNA
Natural Polymer…

Polysaccharides
DNA
Pharmaceutical examples
Most pharmaceuticals are complex, organic
molecules
Can be natural or manmade

aspirin penicillin Acetaminophen
(aka Tylenol)
 Isomers
(structural) isomers: compounds with the
same molecular formula but different structure
(arrangement of atoms)
 different isomers are completely different
compounds
have different physical properties such as melting
point and boiling point
 Structural
Formulas
for C4H10O
Isomers
1. Cyclic organic compounds possessing the properties
of aliphatic compounds are called ___ compounds.
a. Aromatic c. Carbocyclic
b. Homocyclic d. Alicyclic

2. The formula which represents the simple whole
number ratio of different atoms present in one
molecule of a compound is known as :
a. Molecular formula c. Condensed formula
b. Empirical formula d. Electron dot formula
3. An organic compound has empirical formula CH2O and
molecular weight 90. It’s molecular formula will be :
a. C6H12O6 c. C2H4O2
b. C3H6O3 d. C3H9O6

4. General formula of an alkene is :
a. CnH2n c. CnH2n-2
b. CnH2n+2 d. CnH2n-1

5. A hydrocarbon is found to contain 81.80% carbon and
18.20% hydrogen. It’s empirical formula will be:
a. C4H8 c. C3H8
b. C2H6 d. C3H
6. If two compounds have same empirical formula but
different molecular formula, they must have :
a. Different percentage composition
b. Different molecular weight
c. Same viscosity
d. Same vapour density

7. Which of the following is an aromatic compound :
a. Benzene hexachloride c. Cyclobutane
b. Cyclohexane d. Toluene
8. Which of the following is a heterocyclic aromatic
compound :
a. Nephthalene c. Furan
b. Benzene hexachloride d. Toluene

9. Which of the following belongs to a homologous
series ?
a. Methanol, Ethanol, ethanoic acid
b. Propane, Propene, propyne
c. Butane, 2-methylpropane, 2-methylbutane
d. Chloroathane, 2-chloropropane, 1-
chlorobutane
10. Which of the following is not true about homologous
series ?
a. Adjacent members of group differ by one –CH2 group.
b. Adjacent members of group differs by a mass of 14 amu.
c. Members of a group have same chemical and physical
properties.
d. Members of a group can be prepared by same general
methods.

a. Isomers c. allotropes
b. Homologues d. None
12. Alkanes are also called:
a. Paraffins c. Acetylene
b. Olefins d. Both ‘a’ and ‘b’