Chapter 6 - Shapes of Molecules and Intermolecular Forces

Question 1

What does molecular shape depend on?

Answer 1

Electron pairs around the central atom.

Question 2

In what way do electron pairs interact?

Answer 2

They repel each other.

Question 3

Which type of pair repels the most?

Answer 3

Lone pairs

Question 4

What is the order of pair repulsion, from strongest to weakest?

Answer 4

• Lone pair/lone pair
• Lone pair/bonding pair
• Bonding pair/bonding pair

Question 5

What is the name of the way to predict a molecule’s shape?

Answer 5

Electron pair repulsion theory

Question 6

What shape name is given to a molecule with no lone pairs and 4 bonding pairs?

Answer 6

Tetrahedral

Question 7

What is the bond angle in a tetrahedral molecule?

Answer 7

109.5

Question 8

What shape name is given to a molecule with two bonding pairs and two lone pairs?

Answer 8

non-linear

Question 9

What is the bond angle in a trigonal pyramidal molecule?

Answer 9

107

Question 10

What is the bond angle in a non-linear molecule with two lone pairs?

Answer 10

104.5

Question 11

What shape name is given to a molecule with 2 electron pairs around the central atom, with no lone pairs?

Answer 11

Linear

Question 12

What is the bond angle in a linear molecule?

Answer 12

180

Question 13

What shape name is given to a molecule with 3 electron pairs around the central atom, with no lone pairs?

Answer 13

Trigonal planar

Question 14

What is the bond angle in a trigonal planar molecule?

Answer 14

120

Question 15

What shape name is given to a molecule with 6 electron pairs around the central atom?

Answer 15

Octahedral

Question 16

What is the bond angle in an octahedral molecule?

Answer 16

90

Question 17

What is electronegativity?

Answer 17

An atom’s ability to attract the electron pair in a covalent bond.

Question 18

How is electronegativity measured?

Answer 18

On the Pauling scale.

Question 19

What does a higher Pauling value mean?

Answer 19

A higher electronegativity and thus a greater attraction for an electron pair in a covalent bond.

Question 20

What makes a bond polar?

Answer 20

Two atoms with electronegativities differing by at least 0.5, the bonding electrons are pulled towards the more electronegative atom, making it polar.

Question 21

What does a polar bond form?

Answer 21

A permanent dipole

Question 22

How is a dipole formed?

Answer 22

A difference in charge between the two atoms, caused by a shift in electron density in the bond.

Question 23

Are diatomic gases polar or non-polar, why?

Answer 23

Non-polar Because the atoms have equal electronegativities and so the electrons are equally attracted to both nuclei.

Question 24

What happens if the polar bonds are arranged symmetrically in a molecule?

Answer 24

The dipoles cancel each other out, so the molecule has no overall dipole and is non-polar.

Question 25

What happens if the polar bonds are arranged unsymmetrically in a molecule?

Answer 25

Uneven distribution of charge and the molecule will have an overall dipole.

Question 26

What can electronegativity be used to predict about bonding?

Answer 26

Whether it will be covalent or ionic bonding.

Question 27

What is the general strength of intermolecular forces?

Answer 27

Very weak

Question 28

What is the order of the intermolecular forces from strongest to weakest?

Answer 28

Hydrogen bonding
Permanent dipole-dipole interactions
Induced dipole-dipole

Question 29

How are induced dipole-dipole forces formed?

Answer 29

• Movement of electrons produces a changing dipole in a molecule
• At any instant, an instantaneous dipole will exist because there is a constant shift in the uneven distrubition of charge.
• The instantaneous diple induces a dipole on a neigbouring molecule
• The induced dipole induces further dipoles on neighbouring molecules, which then attract one another

Question 30

What is the effect of stronger induced dipole-dipole forces?

Answer 30

Higher boiling points

Question 31

Whats the reason for a higher boiling in a molecule

Answer 31

These molecules have a larger electron clouds, so stronger induced dipole-dipole forces. Boiling point is overcoming the intermolecular forces so stronger ones means a higher boiling point.

Question 32

How are permanent dipole-dipole interactions labelled?

Answer 32

With charges of delta+ and delta- on the atoms.

Question 33

How is hydrogen bonding formed?

Answer 33

What happens is that a weak bond is polarised between the hydrogen of one molecule and a lone pair on a neighbouring molecules, electronegative atom (for example, F, N or O.)

Question 34

What effect does hydrogen bonding have on a molecule?

Answer 34

Soluble in water. Higher boiling and freezing points than molecules of a similar size that don’t form hydrogen bonds.

Question 35

What is an interesting property of ice caused by hydrogen bonding?

Answer 35

hydrogen bonds hold water molecules apart in an open lattice structure. The water molecules in ice are held further apart than in water. As a result, solid ice is less dense than liquid water and therefore floats.

Question 36

How do intermolecular forces explain simple covalent compounds having low melting and boiling points?

Answer 36

Weak intermolecular forces to overcome.

Question 37

How do intermolecular forces explain simple covalent compounds sometimes being soluble in water?

Answer 37

Water is a polar molecule which can form hydrogen bonds with other hydrogen-based molecules.

Question 38

How do intermolecular forces explain simple covalent compounds not conducting electricity?

Answer 38

no mobile charge carriers

Question 39

what is a pure covalent bond?

Answer 39

Molecules of elements such as hydrogen and oxygen, there bonded atoms come from the same element and the electron pair is shared equally.

Question 40

Name and bond angle

Answer 40

Name: Trigonal pyramidal

Angle: 107*

Question 41

Name and bond angle

Answer 41

Non-linear & 117.5*

Question 42

Name & Bond angle

Answer 42

trigonal planar & 120*

Question 43

Name & bond angle

Answer 43

non-linear & 104.5*

Question 44

Name & bond angle

Answer 44

linear & 180*

Question 45

name & bond angle

Answer 45

tetrahedral & 109.5*

Question 46

name & bond angle

Answer 46

trigonal pyramidal & 107*

Question 47

name & bond angle

Answer 47

non-linear & 117.5*

Question 48

name & bond angle

Answer 48

non-linear & 104*

Question 49

what intermolecular forces are involved between water molecules

Answer 49

London forces

permanent dipole-dipole interactions

hydrogen bonding

Question 50

Describe in terms of the lattice structure of H20 when in solid state (ice) and when it is melting.

Answer 50

When it is ice, the water molecules in the lattice are held further apart. When it’s melting, the ice lattice collapses, and the molecules move closer together; thus increasing the density.

Question 51

state the three anomalous properties of water

Answer 51

ice less dense than water, high melting points, and boiling points

Question 52

Explain why simple molecular compounds:

a) have low melting and boiling points
b) do not usually dissolve in water
c) have poor electrical conductivity.

Answer 52

a) Weak intermolecular forces are broken by the energy present at low temperatures.
b) There are little interactions between the molecules in the lattice and the polar solvent molecules.
c) There is no mobile charged particle.

Question 53

Define dipole

Answer 53

Charge separation across a bond with one atom having a delta +ve charge and one atom a delta -ve charge.

Question 54

Define polar covalent bond

Answer 54

shared pair of electrons where the electron pair is not shared equally between the two bonded atoms.

Question 55

is water a non-polar or polar molecule?

Answer 55

polar molecule