Syllabus Edition
First teaching 2023
First exams 2025
Which of the following statements describes first ionisation energy?
The energy required to remove one mole of electrons from one mole of gaseous atoms.
The energy required to remove the outermost electron from each atom in one mole of gaseous atoms.
The energy required to remove the outermost electron from each atom in one mole of atoms.
The energy required to produce one mole of ions from one mole of gaseous atoms.
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Which is the correct equation for the first ionisation energy for magnesium?
Mg → Mg+ + e-
Mg+ (g) → Mg2+ (g) + e-
Mg (g) → Mg+ (g) + e-
Mg+ → Mg2+ + e-
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Why is the second ionisation energy of magnesium higher than the first ionisation energy?
Less shielding
Ionic radius increases
Nuclear charge is increasing
Greater attraction between positive nucleus and outer electron
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1 markThe first five ionisation energies of an element are shown below.
What element could this ionisation energy graph belong to?
N
P
Al
Na
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1 markWhich statement does not explain the increase in ionisation energy across a period?
Nuclear charge increases
Atomic radius decreases
Shielding remains constant
Number of electrons increase
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Element X is in period 2 and has the first seven ionisation energies in kJ mol-1 as shown.
|
1300 |
3380 |
5330 |
7460 |
11 010 |
13 320 |
71 200 |
What is the electronic configuration of element X?
1s2 2s2 2p4
1s2 2s2 2p2
1s2 2s2 2p3
1s2 2s2 2p6
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For the successive ionisation energies of oxygen, where would the highest jump be expected to occur?
Second ionisation energy
First ionisation energy
Seventh ionisation energy
Sixth ionisation energy
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The first ionisation energy of beryllium is higher than the first ionisation energy of boron.
Which statement explains why?
Boron has a full outer shell
Boron has a larger atomic radius than beryllium
Beryllium has a more stable electronic configuration
The atomic number of beryllium is higher than boron
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The electronic configurations of four different atoms are shown.
Which atom has the highest first ionisation energy?
1s2 2s2 2p6 3s2
1s2 2s2 2p4
1s2 2s2 2p6
1s2 2s2
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The table gives the successive ionisation energies for an element R.
|
1st |
2nd |
3rd |
4th |
5th |
6th |
|
|
Ionisation energy / kJ mol-1 |
950 |
1800 |
2700 |
4800 |
6000 |
12300 |
What could be the oxidation state of element R in its chloride?
+1
+2
+3
+4
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The second ionisation energy of magnesium is 1451 kJ mol-1.
Which equation correctly represents this statement?
Mg+ (g) → Mg2+ + e- ΔHӨ = -1451 kJ mol-1
Mg+ (g) → Mg2+ + e- ΔHӨ = +1451 kJ mol-1
Mg (g) → Mg2+ + 2e- ΔHӨ = +1451 kJ mol-1
Mg (g) → Mg+ + e- ΔHӨ = -1451 kJ mol-1
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The successive ionisation energies of element X are shown in the table below. Which group of the periodic table does element X belong to?
|
Ionisation number of X |
1 |
2 |
3 |
4 |
5 |
6 |
7 |
8 |
|
Ionisation energy (kJ mol-1) |
1314 |
3388 |
5301 |
7469 |
10989 |
13327 |
71337 |
84080 |
3
4
5
6
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X, Y and Z are consecutive elements in the third Period of the Periodic Table. Element Y has the highest first ionisation energy and also the lowest melting point of these three elements.
What could be the identities of X, Y and Z?
silicon, phosphorus, sulfur
sodium, magnesium, aluminium
aluminium, silicon, phosphorus
magnesium, aluminium, silicon
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Successive ionisation energies for an element, Y, are shown in the table below.
| Electrons removed |
1st |
2nd |
3rd |
4th |
5th |
| Ionisation energy / kJ mol-1 |
736 |
1450 |
7740 |
10500 |
13600 |
What is the most likely formula for the ion of Y?
Y+
Y2+
Y3+
Y4+
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Values for the successive ionisation energies for an unknown element are given in the table below.
|
First ionisation energy / kJ mol-1 |
Second ionisation energy / kJ mol-1 |
Third ionisation energy / kJ mol-1 |
Fourth ionisation energy / kJ mol-1 |
|
420 |
3600 |
4400 |
5900 |
In which group of the periodic table would the unknown element be found?
1
2
13
14
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