Bonding and Structure - Topic 2

Question 1

What are London forces

Answer 1

The attractive forces between all atoms and molecules

Question 2

Why does an increase in pi bonds increase the London forces

Answer 2

As the bigger the electron cloud the more uneven electron distribution there is so there would be a much stronger imbalance in charge causing there to be a stronger dipole, so a higher polarizability so stronger LDN forces

Question 3

covalent bonding

Answer 3

Strong electrostatic attraction between the nuclei and two atoms and the bonding pair of electrons, a single covalent bond is formed between two atoms when an atomic orbital containing a single electron from one atom overlaps with an atomic orbital that contains one electron of another atom

Question 4

What is expansion of the octet

Answer 4

when an atom is able to have more than 8 valence electrons

Question 5

What are molecular orbitals

Answer 5

The overlap of atomic orbitals from separate atoms

Question 6

How many electrons can molecular orbitals hold

Answer 6

2

Question 7

Types of molecular orbitals

Answer 7

Sigma
Pi

Question 8

Where are sigma bonds found

Answer 8

Between atoms

Question 9

Where are pi bonds found

Answer 9

Below and above atoms

Question 10

How are sigma bonds formed

Answer 10

When orbitals from two separate atoms overlap

Question 11

How are pi bonds formed

Answer 11

When p orbitals in separate atoms overlap sidewards forming pi bonds above and below the atoms

Question 12

Properties of sigma bonds

Answer 12

• all single bonds are sigma bonds
• sigma bonds are free to rotate as rotating each nuclei has no impact on the bonding orbital
• have a high level of attraction between nuclei and shared electrons so are very strong

Question 13

How many pi and sigma bonds are there in double bonds

Answer 13

x1 sigma
X1 pi

Question 14

How many pi and sigma bonds are there in triple bonds

Answer 14

x1 sigma
x2 pi

Question 15

Why are pi bonds weaker than sigma bonds

Answer 15

As the electrons in the pi bond are further away from the nuclei compared to sigma bonds so has there is a weaker level of attraction making the bonds easier to break

Question 16

What is hybridisation

Answer 16

The concept of mixing w atomic orbitals to create a new type of hybridised orbital which has a different shape and energy level

Question 17

Number of hybridised and unhybridised orbitals and what is the hybridised orbital called in single bonds

Answer 17

0 unhybridised orbitals
4 hybridised orbitals
Name: sp3 orbitals

Question 18

Number of hybridised and unhybridised orbitals and what is the hybridised orbital called in double bonds

Answer 18

1 unhybridised p orbital
3 hybridised orbital
Name: sp2

Question 19

Number of hybridised and unhybridised orbitals and what is the hybridised orbital called in triple bonds

Answer 19

2 unhybridised p orbital
2 hybridised orbitals
Name: sp

Question 20

In terms of hybridised orbitals explain why carbon has a tetrahedral shape

Answer 20

Each sp3 orbital has the same energy so the electrons will have equal repulsion between all 4 orbitals causing the orbitals to point away from each other at maximum distances at the angle of 109.5 degrees between then

Question 21

No lone pairs 2 electron pairs geometric shape name

Answer 21

Linear

Question 22

Bond angle of linear molecule

Answer 22

180 degrees

Question 23

3 electron pairs no lone pairs name of molecule

Answer 23

Triagonal planar

Question 24

What are electron domains

Answer 24

Things attached to the central atoms e.g other atoms or lone pairs

Question 25

What makes up a linear geometric shape

Answer 25

2 electron pairs no lone pairs

Question 26

What makes up a triagonal planar shape

Answer 26

3 electron pairs no lone pairs

Question 27

2 bonding pairs 1 lone pair geometrical shape

Answer 27

V shaped

Question 28

2 bonding pairs 2 lone pairs shape

Answer 28

V shaped

Question 29

Bond angle for triangular planar

Answer 29

120 degrees

Question 30

Bond angle of v shape

Answer 30

104.5 degrees

Question 31

What makes up a v shape

Answer 31

2 bonding pairs of electrons and 2 lone pairs

OR

2 bonding pairs and 1 lone pairs of electrons

Question 32

4 bonding pairs of electrons and no lone pairs geometric shape

Answer 32

Tetrahedral

Question 33

Tetrahedral bond angle

Answer 33

109.5 degrees

Question 34

What makes up a tetrahedral shape

Answer 34

4 bonding pairs no lone pairs

Question 35

3 bonding pairs 1 lone pair geometric shape

Answer 35

Tetrahedral pyramidal

Question 36

pyramidal bond angle

Answer 36

107 degrees

Question 37

3 bonding pairs 1 lone pairs geometric shape

Answer 37

pyramidal shape

Question 38

6 bonding pairs no lone pairs

Answer 38

Octahedral

Question 39

What makes up an octahedral

Answer 39

6 bonding pairs

Question 40

What makes up a triangular bipyramidal shape

Answer 40

5 bonding pairs no lone pairs

Question 41

Triagonal bipyramidal bond angles

Answer 41

90 and 120 and 180

Question 42

Octahedral bond angles

Answer 42

90 and 180

Question 43

why can polar substances
i) molecules containing electronegative atoms
ii) NH3 HF and alcohols
dissolve in water

Answer 43

i) as the positive part of water attracts the electronegative part of the molecule and the negative part of the water attracts to the positive part of the molecule
2) as they all form hydrogen bonds between water molecules

Question 44

trends of electronegativity

Answer 44

• increases across a period
• decreases down a group

Question 44

why does electronegativity increase across a period

Answer 44

as the nuclear charge increases causing the atomic radius to decrease but the number of shielding remains constant so there is a stronger attraction between the nucleus and bonding pairs of electrons

Question 45

why does electronegativity decrease down a group

Answer 45

as the number of shielding electrons increases the atomic radius increases so this means that the shared electron pair is further from the nucleus so less attraction between nucleus and bonding pairs of electrons

Question 46

why cant non polar substances dissolve in water

Answer 46

These molecules don’t have regions of partial positive or partial negative charge, so they aren’t electrostatically attracted to water molecules and their weak intermolecular forces cannot disturb the strong hydrogen bonding between water molecules

Question 47

why does solubility decrease as HC chain length increases in alcohols

Answer 47

• As when the length of the hydrocarbon chain increases, the London forces predominate
• the non-polar carbon chain cannot form hydrogen bonds, so as we increase the length a greater part of the molecule is unable to hydrogen bond with water, causing long chain alcohols to be less soluble than short-chain

Question 48

what is required for a substance to dissolve

Answer 48

• soluble particles must be separated from each other and become surrounded by solvent molecules
• the forces of attraction between solute and solvent molecule must be strong enough to overcome the solvent-to-solvent forces and the solute-to-solute forces

Question 49

definition for electronegativity

Answer 49

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

Question 50

what is a saturated solution

Answer 50

a solution that contains as much solute as possible at a particular temperature

Question 51

definition for solubility

Answer 51

a measure of the concentration of a saturated solution of a solute at a specific temperature

Question 52

factors affecting electronegativity

Answer 52

• nuclear charge
• atomic radius
• shielding

Question 53

how does nuclear charge affect electronegativity

Answer 53

more protons stronger attraction between nucleus and bonding pairs of electrons

Question 54

how does atomic radius affect electronegativity

Answer 54

closer to the nucleus the stronger the attraction between nucleus and bonding pairs of electrons

Question 55

how does shielding affect electronegativity

Answer 55

the less shielding so the less repulsion and a stronger attraction between the nucleus and bonding pairs of electrons

Question 56

what are the electronegative atoms

Answer 56

chlorine bromine and iodine

Question 57

what atoms form hydrogen bonds

Answer 57

O F N

Question 58

3 types of intermolecular forces

Answer 58

• induced dipole dipole interactions (London forces)
• permanent dipole dipole interactions
• hydrogen bonding

Question 59

What causes induced dipoles to form

Answer 59

By the random movement of electrons causing an uneven distribution of electrons on one side of the atom. This forms an instantaneous dipole. The negative charge of the instantaneous dipoles repels the electrons in the other atom causing the electrons to move away from the atoms forming an induced dipole. Each atom them experiences a force of attraction between the positive and negative end of the atom, called a London force

Question 60

How does an increase in electrons affect London forces and the boiling point of an atom

Answer 60

The more electrons there are the stronger the London forces so more energy is required to over come them, so the boiling point increases

Question 61

how does the shape of a molecule affect the london forces

Answer 61

• the interactions between long thin molecules are stronger than those between short fat molecules because the interactions between long thin molecules can take effect over a larger surface area
• so the more branched the molecule the lower the surface area of contact and therefore the weaker London forces

Question 62

What causes permanent dipole dipole interactions

Answer 62

This forms when there is an atom with a greater electronegativity so attracts pair of electrons in the covalent bond more strongly causing the electronegative atom to be slightly negative forming a permanent dipole. When two permanent dipoles attract each other they form forming a permanent dipole interaction

Question 63

Why does tetrachloromethane have no overall permanent dipole

Answer 63

As the molecule is completely symmetrical so the bond polarities cancel out so it has no overall permanent dipole

Question 64

Why does tetrachloromethane have a higher boiling point than trichloromethane even though it has no overall permanent dipole

Answer 64

As it has more electrons so stronger London forces so more energy is required to overcome the London forces

Question 65

What causes hydrogen bonding

Answer 65

The electronegative element (nitrogen oxygen or fluorine) strongly attracts the pairs of electrons in the covalent bond causing it to be slightly negative and the hydrogen atom to have a slightly positive charge. The positive hydrogen atom of the other polar molecule (that forms hydrogen bonds) attracts to the lone pair of electrons in oxygen ,fluorine or nitrogen molecule forming a hydrogen bond

Question 66

How many lone pairs of electrons in fluoride nitrogen and oxygen

Answer 66

3 - fluoride
2 - oxygen
1 - nitrogen

Question 67

Conditions for hydrogen bonding

Answer 67

• we need a hydrogen atom bonded to a strongly electronegative element
• the electronegative atom has to have at least one lone pair of electrons

Question 68

Water properties due to hydrogen bonding

Answer 68

• it has a high boiling and melting point due to the hydrogen bonds so requires a lot of energy to overcome hydrogen bonds
• solid form of water is less dense than liquid form

Question 69

Why is ice less dense than water

Answer 69

As when water reaches its freezing point (0 degrees Celsius) the water molecules arrange themselves into an ordered structure which is stabilised by a network of hydrogen bonds so the water molecules are further apart, which makes ice less dense than liquid water

Question 70

How does ice having a low density help organisms

Answer 70

Due to its low density it floats on water, insulating the water below preventing the water from freezing completely

Question 71

definition of hydrogen bonding

Answer 71

a strong intermolecular force between delta-positive hydrogen atom covalently bonded to a F N or O and a lone pair of electrons on the delta negative of the O F or N atom of a nearby molecule

Question 72

What is dative bonding

Answer 72

When an atom uses a lone pair of electrons to form a covalent bond

Question 73

How is a dative bond shown in a displayed formula

Answer 73

Using an arrow

Question 74

Why isn’t a carbon to carbon double bond stronger than a carbon to carbon single bond

Answer 74

As the double bond contains 1x sigma and 1x pi whilst the single bond contains 1x sigma bonds, and its easier to break the pi bond rather than a sigma bond as sigma bonds are stronger

Question 75

what is ionic bonding

Answer 75

the strong electrostatic attraction between two oppositely charged ions

Question 76

How are ionic bonds formed

Answer 76

When a metal transfers its electrons to a non metal so that they both have the same electron configuration of a noble gas causing them to be oppositely charged. And the electrostatic attraction between oppositely charged ions is called an ionic bond

Question 77

What do the square brackets represent in ionic bonding drawings

Answer 77

That the charge is spread over the whole ion

Question 78

How do ionic compounds/ionic crystals form

Answer 78

When a metal and non metal react the ions produced arrange them self into a giant ionic lattice forming an ionic compound

Question 79

Properties of ionic compounds

Answer 79

• they have high mp and bp - due to the strong electrostatic forces of attraction so requires a lot of energy to overcome electrostatic forces of attraction
• they are soluble in polar substances such as water - as the water cluster around the ions and bind to them and the energy released when water molecules bind to the ions is enough to overcome the electrostatic forces of attractions holding the ions lattice together
• they don’t conduct electricity when solid - as the ions are in a fixed in place by the electrostatic forces of attraction so they cannot carry a charge
• hard brittle crystalline substances

Question 80

Why does magnesium oxide have a higher mp than sodium chloride

Answer 80

• magnesium oxide is in group 2 so has a higher charge and a higher charge density so has stronger electrostatic forces of attraction so more energy is needed to overcome so has a higher mp

Question 81

Why does solubility decrease as the charge of ionic compounds increases

Answer 81

As the hydration energy released when the ions are hydrated (water molecules binding to them) is not large enough to overcome the electrostatic forces of attraction holding the lattice together

Question 82

isoelectronic definition

Answer 82

molecules and ions with the exact same number and arrangement of electrons

Question 83

Properties for simple molecular substances

Answer 83

• they have low melting and boiling points - due to the weak London forces between molecules so require little energy to overcome
• do not conduct electricity as they don’t have any delocalised electrons or freely moving ions
• only polar simple substances are soluble in water

Question 84

Why do giant covalent structures have high mp and bp

Answer 84

• have high melting and boiling points due to the strong covalent bonds between atoms so requires a lot of energy to overcome

Question 85

How are the atoms arranged in diamond and what is its bond angle

Answer 85

Tetrahedral structure
Bond angle: 109.5

Question 86

Properties of diamond

Answer 86

• high mp and bp
• does not conduct any electricity as every electron in its covalent bond are fixed between pairs of atoms so no delocalised electrons to act as charge carriers
• insoluble as solvents cannot disrupt the larger number of covalent bonds
• good thermal conductor due to the fixed covalent bonds meaning that the atoms close to the heat get hotter and move faster so the vibrations move quickly throughout the structure heating the whole structure
• very hard due to the strong covalent bonds operating in 3D dimensions
• sublimes at ordinary pressures due to strong covalent bonds

Question 87

How are the carbon atoms in graphite arrange and what’s the bond angle

Answer 87

Planar hexagonal structure
Bond angle: 120

Question 88

Properties of graphite

Answer 88

• conducts electricity due to the delocalised electrons from each carbon atom being able to freely move THROUGHOUT the sheets
• high mp and bp (same as diamond)
• can act as a lubricant due to ADSORBED gases on the surface of carbon atoms (gas molecules sticking to the surface) - but lubricating properties are not there in a vacuum
• insoluble in water (same reason as diamond)
• lower density as diamond due to the relatively amount of large space between layers

Question 89

What is graphene

Answer 89

A single layer of graphite

Question 90

Suggest why boron nitrate can act as a lubricant in a vacuum whilst graphite cannot

Answer 90

As they don’t need gaseous atoms to be ADSORBED (not absorbed, ADSORBED) onto the surface of layers

Question 91

Properties of graphene

Answer 91

• conducts electricity
• can be rolled into a carbon nanotube
• one atom thick

Question 92

Buckminister fullerene formula

Answer 92

C60

Question 93

Properties of silicone dioxide

Answer 93

• high mp and bp due to strong silicone - carbon covalent bonds
• hard
• doesn’t conduct electricity
• insoluble - as there are no attractions which could occur between solvent molecules and the silicone and oxygen atoms which could overcome the covalent bonds in the structure

Question 94

what is metallic bonding

Answer 94

The strong electrostatic attraction between positive metal ions and the sea of delocalised electrons

Question 95

Properties if metallic bonding

Answer 95

• high mp and bp - due to the strong electrostatic forces of attraction between cations and delocalised electrons so requires a lot of energy to overcome these forces and move the metal ions away from their positions in the lattice
• high density - as the atoms are closely packed with little space between them
• can conduct electricity - due to the freely moving delocalised electrons so are attracted to the positive electrode and flow through the metal and this flow is an electrical current
• can conduct heat - when the metal is heated the delocalised electrons move around and conduct heat to the other parts of the metal
• malleable due to metal ions being able to slide over each other when a force is applied (which is known as a slip)
• insoluble

Question 96

What is the electron pair repulsion theory

Answer 96

That the shape of a molecule is determined by the electron pairs surrounding the central atom as the electron pairs repel other electron pairs so move as far as possible to minimise repulsion

Question 97

Why do lone pairs reduce the bond angle by 2.5 degrees

Answer 97

As they repel more strongly

Question 98

why do branched molecules have a lower bp than unbranched molecules

Answer 98

as the molecules dont pack as close together so London forces are reduced as there are fewer contact points