Topic 4 & 14 - Bonding

Question 1

What is an ionic bond?

Answer 1

The electrostatic attraction between oppositely charged ions

Question 2

Which ions will be formed when elements in groups 1,2,3 lose electrons?

Answer 2

Cations

Question 3

Which ions will be formed when elements in groups 5,6,7 gain electrons?

Answer 3

Anions

Question 4

Can transition elements form more than one ion?

Answer 4

Yes

Question 5

What kind of elements most often form ionic compounds?

Answer 5

Non-metals and metals together

Question 6

What are common polyatomic ions formed by non-metals in periods 2 and 3?

Answer 6

1. NO₃^–
2. OH^–
3. SO₄^2–
4. CO₃^2–
5. PO₄^3–
6. NH₄⁺
7. HCO₃^–

Question 7

What is a covalent bond?

Answer 7

Electrostatic attraction between a pair of electrons and positively charged nuclei

Question 8

How is the covalent bond formed?

Answer 8

• A result of electron sharing
• Both elements partially give up their electron to mutual use

Question 9

What does the Lewis structure show?

Answer 9

Shows all the electrons

Question 10

What is a dative bond?

Answer 10

A bond in which both shared electrons come from one atom

Question 11

What are examples of dative covalent bonds?

Answer 11

1. H₃O⁺
2. NH₄⁺
3. CO

Question 12

What is the relationship between the length of the bond and its strength?

Answer 12

The shorter the bond the stronger it is

Question 13

What are polar bonds a result of?

Answer 13

Unequal sharing of electrons (electronegativity difference)

Question 14

What kind of a bond is formed when there is no difference in electronegativity?

Answer 14

Non-polar covalent

Question 15

What kind of a bond is formed when there is an electronegativity difference of about 1.8?

Answer 15

A polar covalent bond

Question 16

What kind of a bond is formed when there is an electronegativity difference greater than 1.8?

Answer 16

An ionic bond

Question 17

What does the VSEPR theory suggest?

Answer 17

Electron pairs found in the outer energy level or valence shell of atoms repel each other and thus position themselves as far apart as possible

Question 18

What are the rules for applying the VSEPR theory?

Answer 18

1. The repulsion applies to both bonding and non-bonding pairs of electrons
2. Double and triple bonds behave as a signle unit known as a negative charge centre
3. The total number of charge centres around the central atom determines the arrangement of the electrons
4. The shape of the molecule is determined by the angles between the bonded atoms
5. Non-bonding pairs of electrons have a higher charge than a bonding pair so cause more repulsion

Question 19

In what order does the repulsion between electron pairs increase?

Answer 19

bonding pair–bonding pair < lone pair–bonding pair < lone pair–lone pair

Question 20

What is the shape and bond angles of a species with two negative charge centres?

Answer 20

• linear
• 180°
• BeCl₂, CO₂, C₂H₂

Question 21

What is the shape and bond angles of a species with three negative charge centres?

Answer 21

All bonded

• planar triangular
• 120°
• BF₃, HCHO, NO₃^–

One non-bonding:

• V-shaped
• 117°
• SO₂

Question 22

What is the shape and bond angles of a species with four negative charge centres?

Answer 22

All bonding:

• tetrahedral
• 109.5° bond angles
  e. g. CH₄, NH₄⁺

One non-bonding:

• trigonal pyramidal
• 107°
• NH₃

Two non-bonding:

• bent or V-shaped
• 105°
• H₂O

Question 23

What does the polarity of a molecule depend on?

Answer 23

1. The polar bonds that it contains
2. The way in which the polar bonds are orientated with respect to each other (the shape of the molecule)

Question 24

When do polar atoms form a non-polar molecule?

Answer 24

When the bonds are of equal polarity and are arrange symmetrically, the polarities cancel out

e.g. CO₂, BF₃, CCl₄

Question 25

When do polar atoms form a polar molecule?

Answer 25

When the atoms are of different polarity and the molecule is unsymmetric, the dipoles do not cancel out

e.g. CH₃Cl, NH₃, H₂O

Question 26

What are the three allotropes of carbon?

Answer 26

1. Graphite
2. Diamond
3. Fullerene C₆₀

Question 27

Describe the structure and properties of graphite

Answer 27

• Each C is sp² hybridised and covalently bonded to three other C atoms with 120° bond angles
• Layers are held by van der Waals’ → are able to slide over each other
• Conducts electricity due to one non-bonded electron per atom
• Used as a lubricant and in pencils

Question 28

Describe the structure and properties of diamond

Answer 28

• Each C is sp³ hybridised and covalently bonded to four other C
• 109.5° bond angles → tetrahedral arrangement
• Does not conduct electricity because no lone pairs
• Used in tools, machinery, and cutting glass
• Also jewellery

Question 29

Describe the structure and properties of fullerene C₆₀

Answer 29

• Each C is sp² hybridised and bonded to three other carbons
• Easily accepts electrons to form negative ions; a semiconductor due to some electron motility
• Soluble in benzene
• Reacts with K to make superconducting crystalline material (used to make nanotubes for electronics, catalysts, and lubricants)

Question 30

Describe the structure and properties of silicon

Answer 30

• Each atom is covalently bonded to four others in tetrahedral arrangement
• Giant lattice structure

Question 31

Describe the structure and properties of silicon dioxide

Answer 31

• Giant covalent structure
• Each Si is covalently bonded to four oxygen atoms and each O to two Si atoms
• Strong structure
• Insoluble in water
• High melting point
• Does not conduct electricity or heat
• Glass and sand

Question 32

What are the different types of intermolecular forces?

Answer 32

1. Van der Waals’
2. Dipole-dipole
3. Hydrogen bonding

Question 33

What are van der Waals’ forces?

Answer 33

Temporary induced dipoles between non-polar molecules

Question 34

How do van der Waals’ affect the boiling points of molecules?

Answer 34

Boiling point increases with increasing number of electrons

Question 35

What is dipole-dipole attraction?

Answer 35

A permanent dipole resulting in opposite charges on neighbouring molecules

• Stronger than van der Waals’

Question 36

What is hydrogen bonding?

Answer 36

• Attraction of molecules that have a covalently bonded hydrogen
• A particular case of dipole-dipole
• Only occurs between molecules which contain hydrogen bonded to fluorine, nitrogen, or oxygen
• Strongest form of intermolecular attraction

Question 37

How does hydrogen bonding affect the boiling points of molecules?

Answer 37

• Cause the boiling points to be significantly higher than usually

Question 38

What is metallic bonding?

Answer 38

The electrostatic attractin between a lattice of positive ions and delocalised electrons

Question 39

Why are metals good conductors of electricity?

Answer 39

The delocalised electrons are highly mobile and can carry current

Question 40

Why are metals malleable?

Answer 40

The delocalised electrons are not disturbed by a change in the conformation of the metal through applied pressure

Question 41

Describe the melting and boiling points of ionic compounds, macromolecular compounds, and covalent compounds

Answer 41

• Ionic compounds have high points as the electrostatic attraction is strong and requires a lot of energy
• Macromolecular and giant covalent have high points as covalent bonds must be broken
• Covalent have lower points because only weak intermolecular forces need to be broken between the molecules

Question 42

Describe the solubility of ionic compounds, polar compounds, and non-polar covalent compounds

Answer 42

• Ionic compounds become hydrated in water and dissolve
• Many polar compounds are soluble (sugar and ethanol form hydrogen bonds with water)
• Non-polar covalent are not readily soluble in water
• Like dissolves like

Question 43

What does the electrical conductivity of a compound depend on?

Answer 43

Whether it contains ions that are able to move and carry a charge

• Solid ionics → no
• Molten ionics → yes
• Covalent → no
• HCl in water → yes

Question 44

What is the shape and bond angles for species with five negative charge centres?

Answer 44

All bonded:

• triangular bipyramidal
• 90°, 120°, 180°
• e.g. PCl₅

One non-bonding:

• unsymmetrical tetrahedron (seesaw)
• 90°, 117°
• SF₄

Two non-bonding:

• T-shaped
• 90°, 180°
• ClF₃

Three non-bonding:

• linear
• 180°
• I₃^–

Question 45

What is the shape and bond angles for species with six negative charge centres?

Answer 45

All bonded:

• octahedral
• 90°
• SF₆

One non-bonding:

• square pyramidal
• 90°, 180°
• BrF₅

Two non-bonding:

• square planar
• 180°
• XeF₄

Question 46

What are the exceptions to the octet rule?

Answer 46

1. Small atoms like Be and B form stable molecule with fewer than an octet of electrons
2. Atoms of elements in the 3rd period and below may expand their octet by using d-orbitals in their valence shell

Question 47

What is a sigma bond?

Answer 47

Bonds formed by overlapping of orbitals along the bond axis

Question 48

What kind of covalent bonds are sigma bonds?

Answer 48

Single covalent bonds

Question 49

What is a pi bond?

Answer 49

A bond formed when two p orbitals overlap sideways

Question 50

What kind of bonds do double covalent bonds contain?

Answer 50

One sigma and one pi

Question 51

What kind of bonds do triple covalent bonds contain?

Answer 51

One sigma and two pi

Question 52

What is hybridisation?

Answer 52

The process by which atomic orbitals within an atom mix to produce hybrid orbitals of intermediate energy

(the atom is able to form stronger covalent bonds using hybrid orbitals)

Question 53

What kind of properties do sp³ hybrid orbitals have?

Answer 53

• one s and three p
• four hybrid orbitals that are equal to each other
• their shape and energy have properties of both s and p but are more like p than s

Question 54

What kind of properties do sp² hybrid orbitals have?

Answer 54

• one s and two p
• three equal hybrid orbitals
• shape and energy have properties of both s and p but a tad more p than s

Question 55

What kind of properties do sp hybrid orbitals have?

Answer 55

• One s and one p orbital
• Equal hybrid orbitals

Question 56

What kind of hybridisation occurs when single bonds are formed?

Answer 56

sp³

Question 57

What kind of hybridisation occurs when a double bond is formed?

Answer 57

sp²

Question 58

What kind of hybridisation occurs when a triple bond is formed?

Answer 58

sp

Question 59

What does the sp³ hybridisation say about the shape of the molecule?

Answer 59

It’s tetrahedral or one of its derivatives (pyramidal, v-shaped)

Question 60

What does sp² hybridisation say about the molecule’s shape?

Answer 60

It’s planar triangular or its derivative (v-shaped)

Question 61

What does sp hybridisation say about the shape of the molecule?

Answer 61

It’s linear

Question 62

When does resonance occur in molecules?

Answer 62

When more than one valid Lewis structure can be drawn for a particular molecule.

Question 63

What are examples of molecules with delocalised electrons?

Answer 63

• NO₃^–
• NO₂^–
• CO₃^2–
• O₃
• RCOO^–
• Benzene

Question 64

What are properties of species with delocalised electrons?

Answer 64

1. Intermediate bond lengths and strengths
2. Greater stability