Module 1: OVERVIEW OF ORGANIC CHEMISTRY

Question 1

Organic Chemistry deals with substances derived from living things.
(True or False)

Answer 1

False

Question 2

Organic Chemistry deals with carbon-based molecules.
(True or False)

Answer 2

False

Question 3

Carbon-containing but NOT ORGANIC

Answer 3

• Carbon (graphite, diamond)
  *CO2
• CO
• CN-
• C-4
• CO3-2

Question 4

Many chemists believed that a “vital force”, a mysterious, presumed
property of living things was needed for the
formation of organic compounds

Answer 4

VITAL FORCE THEORY

Question 5

The vital force theory is abolished by

Answer 5

Friedrich Wohler

Question 6

Ammonium cyanate
(Organic or Inorganic)

Answer 6

Inorganic

Question 7

Urea
(Organic or Inorganic)

Answer 7

Organic

Question 8

the chemistry of hydrocarbons and their derivatives

Answer 8

Organic Chemistry

Question 9

Organic compounds are more abundant than inorganic compounds.
(True or False)

Answer 9

True

Question 10

Organic compounds have simple structures.
(True or False)

Answer 10

FALSE
?? Organic compounds
have complex structures.

Question 11

Organic compounds
are water-insoluble and nonpolar
(True or False)

Answer 11

True

Question 12

Organic compounds
are inflammable.
(True or False)

Answer 12

True
?? The words Inflammable and
flammable have the same meaning

Question 13

Elements in Organic compounds

Answer 13

• Hydrogen
• Carbon
• Nitrogen
• Oxygen
• Fluorine
• Phosphorus
• Sulfur
• Chlorine
• Bromine
• Iodine

Question 14

Why study Organic Chemistry?
- Living things are
made of?

Answer 14

organic
compounds

Question 15

Why study Organic Chemistry?
- make up hair?

Answer 15

Proteins

Question 16

Why study Organic Chemistry?
- controls genetic make-up?

Answer 16

DNA

Question 17

Why study Organic Chemistry?

Answer 17

 Foods, medicines
 Examine structures to the right

Question 18

The smallest particle of an element that maintains its chemical identity

Answer 18

ATOM

Question 19

Building blocks
of atomic structure

Answer 19

–PROTON (p+)
– NEUTRON (n0)
–ELECTRON (e-)

Question 20

The Nuclide Symbol

Answer 20

𝐴
𝐸
Z
* E  Symbol
* A  Mass number
* Z  Atomic number

Question 21

Wave Mechanics
– It estimates the position of electrons and quantifies energy levels (a.k.a. shells).

Answer 21

Schrödinger Wave Equation

Question 22

Wave Mechanics
– Region of space where an electron is most likely found.

Answer 22

Atomic Orbitals (AO)

Question 23

Shape of the Orbitals

Answer 23

s spherical
p dumb-bell
d clover leaf
f complex

Question 24

“Distribution of electrons”

Answer 24

ELECTRON CONFIGURATION

Question 25

Describes the number and arrangement of
electrons in orbitals, subshells, and shells
in an atom.

Answer 25

ELECTRON CONFIGURATION

Question 26

Max e of s

Answer 26

2

Question 27

Max e of p

Answer 27

6

Question 28

Max e of d

Answer 28

10

Question 29

Max e of f

Answer 29

14

Question 30

Outermost electrons

Answer 30

Valence electrons

Question 31

Different from charge

Answer 31

Valence electrons

Question 32

A pair of unshared, nonbonding electrons
is called

Answer 32

LONE PAIR

Question 33

form bonds to achieve 8 valence electrons

Answer 33

OCTET RULE

Question 34

have a “line” drawn between two atoms indicating a “2-electron” covalent bond.

Answer 34

Kekulé (Line-Bond) Structure

Question 35

Molecular Representations
– No. of each type of atom

Answer 35

Molecular formula

Question 36

Molecular Representations
– Atoms and bonds are shown.

Answer 36

Structural formula

Question 37

Molecular Representations
– Single bond are NOT drawn.
– Groups are clustered

Answer 37

Condensed structural formula

Question 38

C and H atoms usually are “NOT” shown.
– H atoms attached to all “non-carbon” atoms must be shown
- All heteroatoms (atoms other than carbon and hydrogen) must be drawn, and any H atoms attached to a heteroatom must also be drawn

Answer 38

Skeletal (Line-angle) Structures

Question 39

Structures are drawn in “zigzag” manner

Answer 39

Skeletal (Line-angle) Structures

Question 40

Each corner, bent, endpoint, and intersection represent a C atom.

Answer 40

Skeletal (Line-angle) Structures

Question 41

C atoms can form 4 covalent bonds. Supply the no. of H atoms mentally.

Answer 41

Skeletal (Line-angle) Structures

Question 42

form as a result of electron “transfer”

Answer 42

Ionic bonds

Question 43

form due to sharing of
electrons

Answer 43

Covalent bonds

Question 44

ability of an atom to attract the shared electrons in a covalent bond

Answer 44

ELECTRONEGATIVITY

Question 45

• can have ionic character.
• differ on the degree of “sharing”.
  – Depends on difference of electronegativity

Answer 45

Covalent bonds

Question 46

DIFFERENCE IN EN:
??
TYPE OF BOND:
+ Non-polar Covalent
MOST LIKELY FORMED BETWEEN:
+ Two Nonmetals OR Nonmetal and Metalloid

Answer 46

Less than 0.5

Question 47

DIFFERENCE IN EN:
??
TYPE OF BOND:
+ Polar Covalent
MOST LIKELY FORMED BETWEEN:
+ Two Nonmetals OR
Nonmetal and Metalloid

Answer 47

0.5 – 1.9

Question 48

DIFFERENCE IN EN:
??
TYPE OF BOND:
+ Ionic
MOST LIKELY FORMED BETWEEN:
+ Metal + Nonmetal

Answer 48

More than 1.9

Question 49

a.k.a. Electron
Density Model

Answer 49

Electrostatic Map Potential

Question 50

Arrows indicate direction of bond polarity

Answer 50

Electrostatic Map Potential

Question 51

Bond Dipole Arrow

Answer 51

Electrostatic Map Potential

Question 52

Electrostatic Map Potential
- represents low electron density

Answer 52

blue

Question 53

Electrostatic Map Potential
- represents high electron density

Answer 53

red

Question 54

Bonding electrons toward the electronegative atom
– C acquires partial positive charge, + (delta plus)
– Electronegative atom acquires partial negative
charge, - (delta minus)

Answer 54

Electrostatic Map Potential

Question 55

Valence electrons may be involved in the
formation of single, double, or triple bonds

Answer 55

Valence-Shell Electron Pair Repulsion (VSEPR)

Question 56

Electrons are paired in the “overlapping orbitals” and are attracted to the nuclei of both atoms

Answer 56

Valence Bond Theory

Question 57

Atomic orbitals combine to form new orbitals called

Answer 57

HYBRID ORBITALS

Question 58

Sigma (s) bond and Pi () bonds
+ Electrons are centered
between nuclei

Answer 58

Sigma bond

Question 59

Sigma (s) bond and Pi () bonds
+ Electrons occupy regions above and below the axis joining the nuclei

Answer 59

Pi bond

Question 60

Energy needed to break or form a chemical bond

Answer 60

Bond Strength (Bond Energy)

Question 61

Sigma bond is greater than pi bonds
(True or False)

Answer 61

True

Question 62

Optimum distance between nuclei leading to maximum stability

Answer 62

Bond Length

Question 63

antibiotic

Answer 63

Benzylpenicillin

Question 64

Bond angle of Single bond

Answer 64

109.5 degrees

Question 65

Bond angle of Triple bond

Answer 65

180 degrees

Question 66

Bond angle of Double bond

Answer 66

120 degrees

Question 67

Shape of Single bonds

Answer 67

Tetrahedral

Question 68

Shape of Double bonds

Answer 68

Trigonal Planar

Question 69

Shape of Triple bonds

Answer 69

Linear

Question 70

Electron Density around the Central Atom of Single bonds

Answer 70

4

Question 71

Electron Density around the Central Atom of Double bonds

Answer 71

3

Question 72

Electron Density around the Central Atom of Triple bonds

Answer 72

2

Question 73

Groups Bonded to Carbon of Single Bonds

Answer 73

4

Question 74

Groups Bonded to Carbon of Double Bonds

Answer 74

3

Question 75

Groups Bonded to Carbon of Triple Bonds

Answer 75

2

Question 76

Orbital Hybridization of Single Bonds

Answer 76

sp3

Question 77

Orbital Hybridization of Doubles Bonds

Answer 77

sp2

Question 78

Type of Bonds to Carbon of Single Bonds

Answer 78

Sigma bond

Question 78

Orbital Hybridization of Triple Bonds

Answer 78

sp

Question 79

Type of Bonds to Carbon of Double Bonds

Answer 79

Sigma bond and 1 pi bond

Question 80

Type of Bonds to Carbon of Triple Bonds

Answer 80

Sigma bond and 2 pi bonds

Question 81

The charge on an atom in a molecule or polyatomic ion

𝑭𝑪 = # 𝒐𝒇 𝒗𝒂𝒍𝒆𝒏𝒄𝒆 𝒆
− 𝑼𝒏𝒔𝒉𝒂𝒓𝒆𝒅 𝒆
− # 𝒐𝒇 𝒃𝒐𝒏𝒅�

Answer 81

Formal Charge