Atoms, moles and stoichiometry

Question 1

What is an anode?

Answer 1

The positive electrode (where oxidation occurs).

Question 2

What is the relative mass of an electron?

Answer 2

1/1836

Question 3

What is an atomic number?

Answer 3

The number of protons in the nucleus of an atom. Also called the proton number.

Question 4

What is an isotope?

Answer 4

Atoms of the same element with different mass numbers.

Question 5

What is the mass number?

Answer 5

The number of protons+neutrons in an atom. Also called the nucleon number.

Question 6

Do isotopes of a particular element have similar chemical properties?

Answer 6

Isotopes of a particular element have the same chemical properties because they have the same number of electrons.

Question 7

Do isotopes of a particular element have similar physical properties?

Answer 7

Isotopes of a particular element have slightly different physical properties, such as small differences in mass and density because they have a different number of neutrons.

Question 8

What are two ways isotopes can be represented?

Answer 8

isotopes can be represented by nuclide notation. Chemists also name them by emitting the proton number and placing the nucleon number after the name for example the isotopes of hydrogen can be called:
hydrogen-1
hydrogen-2
hydrogen-3

Question 9

Explain the behaviour of subatomic particles in an electrical behaviour field.

Answer 9

Beams of protons and electrons are deflected by electrical fields but neutrons are not.

Question 10

What is electron configuration?

Answer 10

The arrangement of electrons in an atom is called its electronic structure or electronic configuration.

Question 11

What are quantum shells?

Answer 11

Electrons are arranged outside the nucleus in energy levels or quantum shells. These principle energy levels or principle quantum shells (symbolled n) are numbered according to how far they are from the nucleus. The lowest energy level n=1 is closest to the nucleus, the energy level n=2 is further out and so on.

Question 12

Which electrons have greater energy?

Answer 12

The electrons in quantum shells further away from the nucleus have more energy and are held less tightly to the nucleus.

Question 13

How many maximum electrons can principle quantum shells hold?

Answer 13

Shell 1: 2 electrons
Shell 2: 8 electrons
Shell 3: 18 electrons
Shell 4: 32 electrons

Question 14

What is the first ionization energy, IE1?

Answer 14

First Ionisation energy is the energy needed to remove one mole of electrons from 1 mole of atoms of an element in the gaseous state to form one mole of gaseous ions.

Question 15

What is ionisations energies units?

Answer 15

Its units are KJ mol-1

Question 16

What is successive ionisation energy?

Answer 16

We can continue to remove electrons from an atom until only the nucleus is left. We call this sequence of ionization energies successive ionisation energies.

Question 17

What is second ionisation energy?

Answer 17

The second ionisation energy is the energy needed to remove 1 electron from each ion of an element in 1 mole of gaseous +1 ions to form 1 mole of gaseous ions with a +2 charge.

Question 18

What is the trend in ionisation energy across a period and down a group?

Answer 18

The first ionisation energy increases across a period and decreases down a group.

Question 19

Why does ionisation energy increase across a period?

Answer 19

Across a period from left to right, the ionisation energy increases as with each successive element one proton is added so the nucleus is becoming more positive. This increase in nuclear charge exerts a greater electrostatic attraction on the electrons and therefore more energy is required to remove electrons.

Question 20

Why does ionisation energy decrease down a group?

Answer 20

Going down a group, the ionisation energy decreases. This is because with each successive element there is an extra occupied energy level so the electron being removed is further away from the nucleus. Also, this electron is more shielded from the positive charge of the nucleus, by the extra inner occupied energy levels. This increased distance and shielding of the outer electrons from the nucleus, makes the electrostatic attraction weaker and electrons are more easily removed.

Question 21

What is shielding?

Answer 21

Shielding is the ability of inner shell electrons to reduce the effect of the nuclear charge on outer shell electrons.

Question 22

What are the four factors which influence ionisation energy?

Answer 22

Four factors that influence ionisation energy are:
The size of the nuclear charge
Distance of Outer electrons from the nucleus
Shielding effect of inner electrons
Spin Pair repulsion

Question 23

What is the general relationship between ionization energy and nuclear charge?

Answer 23

In general, ionisation energy increases as the proton number increases.

Question 24

What is the general relationship between the distance of the outer electron shell and ionisation energy?

Answer 24

In general, the further the outer electron is from the nucleus, the lower the ionisation energy.

Question 25

What is the general relationship between the shielding effect of inner electrons and ionisation energy?

Answer 25

In general ionisation energy is lower as the number of full outer electron shells between the outer electrons and the nucleus increases.

Question 26

What is the general trend between spin pair repulsion and ionisation energy?

Answer 26

Increased repulsion makes it easier to remove an electron so ionization energy decreases.

Question 27

What is spin pair repulsion and how does it affect ionisation energy?

Answer 27

Electrons in the same atomic orbital in a subshell repel each other more than electrons in different atomic orbitals. This increased repulsion makes it easier to remove an electron so first ionisation energy decreases.

Question 28

What is the size of the nuclear charge and how does this affect ionisation energy?

Answer 28

As the atomic number increases, the positive charge in the nucleus increases. The bigger the positive charge, the greater the attractive force between the nucleus and the electrons. So more energy is required to overcome these attractive forces if an electron is to be removed.

Question 29

What is the distance of outer electrons from the nucleus and its effect on ionisation energy?

Answer 29

The force of attraction between positive and negative charges decreases rapidly as the distance between them increases. So electrons in shells further away from the nucleus are less attracted to the nucleus than those closer to the nucleus.

Question 30

What is the shielding effect of inner electrons and how does this effect ionisation energy?

Answer 30

As all electrons are negatively charged they repel each other. Electrons in full inner shells repel electrons in outer shells. Full inner shells of electrons prevent the outer electrons from feeling the nuclear charge. This is called the shielding effect. The greater the shielding of outer electrons by the inner electron shells, the lower the attractive forces between the nucleus and the outer electrons.

Question 31

What are subshells (subsidiary quantum shells)?

Answer 31

Subshells (subsidiary quantum shells) are regions of the principle quantum shells where electrons exist in defined spaces associated with particular amounts of energy. These are named s, p ,d and f.

Question 32

What are principle quantum shells split into?

Answer 32

The principle quantum shells, apart from the first, are split into sub-shells (sub-levels). Each principle quantum shell contains a different number of sub-shells. The subshells are distinguished by the letters s, p, d and f.

Question 33

What are atomic orbitals?

Answer 33

Each subshell contains one or more atomic orbitals. Atomic orbitals are regions of space outside the nucleus that can be occupied by a maximum of two electrons. Orbitals are named s, p, d and f. They have different shapes.

Question 34

How many orbitals can each subshell hold?

Answer 34

s subshell : 1 orbital
p subshell : 3 orbitals labelled px, py and pz
d subshell : 5 orbitals
f subshell : 7 orbitals

Question 35

What is the maximum number of electrons that each subshell can hold?

Answer 35

Each orbital can hold a maximum number of 2 electrons so the maximum number of electrons in each subshell are as follows:
s : 1 x 2 = total of 2 electrons
p : 3 x 2 = total of 6 electrons
d : 5 x 2 = total of 10 electrons
f : 7 x 2 = total of 14 electrons

Question 36

What is the order of increasing subshell energy?

Answer 36

The subshells increase in energy as follows: s ＜ p ＜ d ＜ f
The only exception to these rules is the 3d orbital which has slightly higher energy than the 4s orbital
Because of this, the 4s orbital is filled before the 3d orbital.

Question 37

What is a degenerate orbital?

Answer 37

All the orbitals in the same subshell have the same energy and are said to be degenerate
E.g. px, py and pz are all equal in energy

Question 38

Describe the shape of the s orbital?

Answer 38

The s orbitals are spherical in shape
The size of the s orbitals increases with increasing shell number
E.g. the s orbital of the third quantum shell (n = 3) is bigger than the s orbital of the first quantum shell (n = 1).
The s orbitals become larger with increasing principal quantum number.

Question 39

Describe the shape of the P orbitals.

Answer 39

The p orbitals are dumbbell-shaped
Every shell has three p orbitals except for the first one (n = 1)
The p orbitals occupy the x, y and z-axis and point at right angles to each other so are oriented perpendicular to one another
The lobes of the p orbitals become larger and longer with increasing shell number

Question 40

How can you identify which electron configuration of an atom has the lowest amount of energy?

Answer 40

The most stable electronic configuration of an atom is the one that has the lowest amount of energy.

Question 41

Which two element do not follow the usual pattern for writing electronic configuration?

Answer 41

Copper and chromium.
Copper has electronic configuration [AR] 3d^5 4s^1. (instead of 3d^4 4s^2)
Chromium has electronic configuration [AR] 3d^10 4s^1. (instead of [Ar] 3d^9 4s^2).
This is because the electronic configuration is more stable.

Question 42

Which elements are called s-block?

Answer 42

Elements in groups 1 and 2 have outer electrons in an s-subshell. They are therefore called the s-block.

Question 43

Which elements are called the p Block?

Answer 43

Elements in groups 13 to 18 (apart from He) have outer electrons in a p-subshell. They are therefore together called the P block.

Question 44

Which elements are called the d block ?

Answer 44

Elements that add electrons to the d-subshell are called the d-block elements. Most of of these are transition metals.

Question 45

What is spin pair repulsion?

Answer 45

Electrons can be imagined as small spinning charges which rotate around their own axis in either a clockwise or anticlockwise direction
The spin of the electron is represented by its direction.
electrons with similar spin repel each other which is also called spin-pair repulsion.

Question 46

Why do electrons occupy separate orbitals?

Answer 46

Electrons will therefore occupy separate orbitals in the same subshell to minimize this repulsion and have their spin in the same direction
Eg. if there are three electrons in a p subshell, one electron will go into each px, py and pz orbital

Question 47

When are electrons in a orbital within a subshell paired up?

Answer 47

Electrons are only paired when there are no more empty orbitals available within a subshell in which case the spins are the opposite spins to minimize repulsion
Eg. if there are four electrons in a p subshell, one p orbital contains 2 electrons with opposite spin and two orbitals contain one electron only

Question 48

Why do electrons occupy the same orbital instead of jumping to successive empty orbitals?

Answer 48

Even though there is repulsion between negatively charged electrons (inter-electrons repulsion), they occupy the same region of space in orbitals
This is because the energy required to jump to successive empty orbital is greater than the inter-electron repulsion
For this reason, they pair up and occupy the lower energy levels first.

Question 49

What is a free radical?

Answer 49

Free radical is a species with one (or sometimes more than one) unpaired electron.

Question 50

What can a free radical be represented as?

Answer 50

The unpaired electron in the free radical is shown as a dot. For example CL.

Question 51

How are free radials formed?

Answer 51

Free radicals are formed when a molecule undergoes homolytic fission where the two electrons of a covalent bond are split evenly between the two atoms.

Question 52

What is meant by species in terms of chemistry?

Answer 52

The word species refers to different particles, such as atoms, ions, molecules, free radicles or electrons when we want to write in general terms or about more than one type of particle.

Question 53

Describe how transition metals lose electrons slightly differently than the rest of the periodic table?

Answer 53

The transition metals fill the 4s subshell before the 3d subshell but lose electrons from the 4s first and not from the 3d subshell (the 4s subshell is lower in energy)

Question 54

What is the definition of atomic radius?

Answer 54

The atomic radius of an element is a measure of the size of an atom. It is half the distance between the two nuclei of two covalently bonded atoms of the same type.

Question 55

What is the definition of ionic radius?

Answer 55

The ionic radius of an element is a measure of the size of an ion

Question 56

What is the trend in atomic radius down each group?

Answer 56

The atomic radius increases down any group.

Question 57

What is the trend in atomic radius across a period?

Answer 57

The atomic radius decreases across any period.

Question 58

Explain the trend in atomic radius down each group.

Answer 58

Atomic radii increase moving down a Group as there is an increased number of shells going down the Group
The electrons in the inner shells repel the electrons in the outermost shells, shielding them from the positive nuclear charge
This weakens the pull of the nuclei on the electrons resulting in larger atoms.

Question 59

Explain the trend in atomic radius across a period.

Answer 59

Atomic radii decrease as you move across a Period as the atomic number increases (increased positive nuclear charge) but at the same time extra electrons are added to the same principal quantum shell.
The larger the nuclear charge, the greater the pull of the nuclei on the electrons which results in smaller atoms.

Question 60

What is the trend in ionic radius with increasing negative charge?

Answer 60

Ionic radii increase with increasing negative charge.

Question 61

What is the trend in ionic radius with increasing positive charge?

Answer 61

Ionic radii decrease with increasing positive charge.

Question 62

Explain the trend ionic radius with increasing negative charge.

Answer 62

Ions with negative charges are formed by atoms accepting extra electrons while the nuclear charge remains the same
The outermost electrons are further away from the positively charged nucleus and are therefore held only weakly to the nucleus which increases the ionic radius
The greater the negative charge, the larger the ionic radius.

Question 63

Explain the trend in ionic radius with increasing positive charge.

Answer 63

Positively charged ions are formed by atoms losing electrons
The nuclear charge remains the same but there are now fewer electrons which undergo a greater electrostatic force of attraction to the nucleus which decreases the ionic radius
The greater the positive charger, the smaller the ionic radius

Question 64

Explain the rapid decreases in ionisation energy between the last element in one period and the first element in one period and the first element in the next period.

Answer 64

The forces of attraction between the positive nucleus and the outer negative electron decreases because:
The distance between the nucleus and the outer electron increases
The shielding by inner shells increases
These factors outweigh the increased nuclear charge.

Question 65

Why is there a slight decrease in first ionisation energy between beryllium and boron?

Answer 65

There is less attraction between the fifth electron in boron and the nucleus because:
The distance between the nucleus and the outer electron increases slightly.
The shielding by inner shells increases slightly
These two factors outweigh the increased nuclear charge.