Atomic Structure - Topic 1

Question 1

How many orbitals and electrons in the s orbital

Answer 1

1 orbital
2 electrons

Question 2

How many orbitals and electrons in the p orbital

Answer 2

3 orbitals
6 electrons

Question 3

How many orbitals and electrons in the d orbital

Answer 3

5 orbitals
10 electrons

Question 4

How many orbitals and electrons in the f orbital

Answer 4

7 orbitals
14 electrons

Question 5

What are the two isotopes of chlorine

Answer 5

35Cl 37Cl

Question 6

What blocks are group 1 and 2 and why

Answer 6

S blocks
As there outer electrons are in energy levels called s subshells

Question 7

What blocks are Group 3 and 0 found in and why

Answer 7

P blocks
As there outer electrons are in energy levels called p subshells
(Except helium)

Question 8

Properties of isotopes

Answer 8

• identical chemical properties since they have the same electron configuration
• different physical properties

Question 9

What does a mass spectrometer do

Answer 9

Helps as determine the abundance and molecular mass of isotopes

Question 10

The stages of mass spectrometry

Answer 10

1) ionisation
2) acceleration
3) deflection

Question 11

How are the atoms ionized when in a mass spectrometer

Answer 11

Atom are turned into its gaseous state then are ionized in the spectrometer by high energy electrons bombarding the sample, knocking off their elections forming a positive ion and a radical ( a single electron)

Question 12

What happens in the acceleration and deflection stage in a mass spectrometer

Answer 12

1) ions are accelerated by an electric field, so they have the same KE
2) ions stop accelerating then drift to a magnetic field where they are deflected

Question 13

How does the mass spectrometer discover the masses of isotopes

Answer 13

By recording the time it takes for the ions to deflect off of the magnetic field as the lighter ions would drift at a higher velocity so would deflect first compared to the heavier ions

Question 14

How does the mass spectrometer determine the abundance of an isotope

Answer 14

When the ions reach the magnetic field it gains an electron generating a current and the size of the current determines the abundance as it give a measure of the number of ions being deflected

Question 15

Ratio of 35Cl to 37Cl

Answer 15

3:1

Question 16

Ratio of 35Cl-35Cl to 37Cl-35Cl or 35Cl-37 to 37Cl-37Cl

Answer 16

9:6:1

Question 17

Abundance 35Cl

Answer 17

75%

Question 18

Abundance of 37Cl

Answer 18

25%

Question 19

Lithium isotopes

Answer 19

6Li 7Li 8Li

Question 20

Mass of electron proton and neutron

Answer 20

Electron 1/1840
Proton 1
Neutron 1

Question 21

Relative intensity for 79Br 81Br 158Br 160Br and 162Br

Answer 21

79Br - 10
81Br - 10
158Br - 50
160Br - 100
162Br - 50

Question 22

Ratio for 79Br to 81Br

Answer 22

1:1

Question 23

Ratio for 158Br to 160Br to 162Br

Answer 23

1:2:1

Question 24

Isotopes of bromine

Answer 24

79Br 81Br

Question 25

What is the principal quantum number,n

Answer 25

The number given to each shell

Question 26

How to find the maximum number of electrons found in each shell

Answer 26

2n^2

Question 27

What do atomic orbitals show

Answer 27

A 95% probability of where an electron would exist

Question 28

What are the atomic orbitals

Answer 28

S
P
D
F

Question 29

First ionisation energy

Answer 29

The energy needed to remove 1 mole of electrons form one mole of an atom in its gaseous to form 1 mole of 1+ ions in their gaseous state

Question 30

Second ionisation energy

Answer 30

The energy needed to remove 1 mole of electrons from one mole of 1+ ions in their gaseous state to form 1 mole of 2+ ions in their gaseous state

Question 31

Equation for first ionisation energy

Answer 31

+ -
X(g) ———> X(g) + e

Question 32

Factors that affect ionisation energy

Answer 32

• atomic radius
• shielding
• charge on the nucleus

Question 33

How does atomic radius affect ionisation energy

Answer 33

As the atomic radius increases the force of attraction between the positive nucleus and outer electron decreases so ionisation energy decreases

Question 34

How does charge of the nucleus affect ionisation energy (IE)

Answer 34

The greater the number of protons the greater the force of attraction between the outer electrons and the nucleus so IE increases

Question 35

How does shielding of the nucleus affect ionisation energy (IE)

Answer 35

Electrons in the outer shell are repelled by electrons in the inner shell so the more shielding the smaller the attraction between the outer electron and nucleus so the IE decreases

Question 36

Why is their a gradual increase in ionisation energy on an ionisation energy graph

Answer 36

As when we remove a valence electron the remaining electrons in the outer shell is pulled closer to the nucleus so there is a greater attraction between the outer electrons and the nucleus causing the IE to gradually increase and all electrons are being removed from the same quantum shell

Question 37

What does the gradual increase in IE tell us on an ionisation graph

Answer 37

The number of electrons in the outer shell

Question 38

What does the massive increase in IE show on a ionisation graph

Answer 38

That the electron that we are removing is in a shell closer to the nucleus than the previous electrons and it sits alone in the outer most shell so it requires more energy to remove

Question 39

Why does the first ionisation decrease as you go down a group

Answer 39

Although the number of protons increase it is outweighed by the shielding and atomic radius
As the shielding increase there is more electron repulsion between the outer electrons and the inner electrons causing the ionisation energy to decrease , the increase in shielding also causes the atomic radius to increase as the electrons are becoming further away from the nucleus so the attraction decreases

Question 40

Why does the first ionisation increase as you go across a period

Answer 40

• the positive charge in the nucleus increases as the number of protons increases, increasing the attraction between the nucleus and electrons, causing the atomic radius to decrease
• the increase in nuclear charge and decrease in atomic radius increases the attraction between the outer electrons and the nucleus causing the ionisation energy to increase

Question 41

why can the first ionisation energy DECREASE as you go across a period

Answer 41

• when removing an electron from a higher energy level the energy level is further from the nucleus so it takes less energy to remove the outer electron so the IE decreases
• if they are in the same orbital the sub shell with the paired electrons would require less IE to be removed as they repel each other so take less energy to remove than if they were in separate orbitals

Question 42

How are emissions spectrums produced

Answer 42

When energy is emitted by excited electrons dropping to lower energy levels

Question 43

What are the lines in the visible spectrum caused by

Answer 43

Electrons dropping to n=2 energy level

Question 44

What are the lines in the UV part of the spectrum caused by

Answer 44

Electrons dropping to n=1 energy level

Question 45

What are the lines in the infrared part of the spectrum caused by

Answer 45

Electrons dropping to n=3 energy level

Question 46

What happens when you pass a lot of energy through an hydrogen atom

Answer 46

The electron only absorbs the exact energy difference from the first energy level to the second and moves to the higher energy level (and when it drops it releases the exact same amount of energy due to the conservation of energy)

Question 47

What is hunds rule

Answer 47

the electrons will occupy the orbitals singly before pairing takes place

Question 48

What are the periodic trends

Answer 48

Atomic radius
Ionisation energy
Electron affinity
Electronegativity
Bonding structure (mp and bp)

Question 49

What is the atomic radius

Answer 49

The distance from the nucleus to the electrons in the outer energy level

Question 50

Why does atomic radius decrease across a period

Answer 50

• as we move across a period the proton number increased by 1 so the positive charge increases this increase in positive charge means that there is a greater attraction between the nucleus and electrons drawing the electrons closer to the nucleus causing the atomic radius to decrease
• shielding due to the inner electrons is the same across the period

Question 51

Why does atomic radius increase moving down a period

Answer 51

The number of electron shells increase as you go down a group this is because each element has one more full inner electron shell increasing the amount of shielding between the nucleus and outer electrons so the outer electron shell is further away from the nucleus causing there to be less attraction between the outer electrons and the nucleus and increasing atomic radius

Question 52

Bonding and structure - metallic bonding

Answer 52

• the negatively charge delocalised electrons are strongly attracted to the positive metal ions by strong metallic bonding
• this overall structure is called a giant metallic bond

Question 53

Key feature of giant metallic lattice

Answer 53

• cations (metal ions) are fixed in place and cannot move
• delocalised electrons are free to move so can conduct heat and electricity when solid and liquid
• have high melting point and boiling point due to strong metallic bond
• don’t dissolve

Question 54

Bonding and structure - property of giant covalent structures

Answer 54

• have high melting and boiling points as billions of atoms are joined together by strong covalent bonds to form a giant covalent lattice and it would require lots of energy to overcome these bonds

Question 55

Key features of giant covalent bonds

Answer 55

• high melting and boiling point
• does not conduct electricity as it has not delocalised electrons or ions since every electron is involved in covalent bonding
• insoluble as solvents cannot disrupt the large number of strong covalent bonds

Question 56

Why can graphite conduct electricity even though it’s a giant covalent bond

Answer 56

As the carbon atoms form 3 covalent bonds instead of 4 (like in diamond) so it has one delocalised electron

Question 57

Bonding and structure - simple molecular bonding

Answer 57

They have a simple molecule lattice with weak intermolecular forces between molecules which do not require lots of energy to break so have low bp and mp

Question 58

Examples of giant covalent structures

Answer 58

Boron
Carbon
Silicone

Question 59

What is electron affinity

Answer 59

How easy it is to gain an electron

Question 60

What happens to the electron affinity across a period

Answer 60

It increases