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3.1.1.4 Electron Arrangement
206 minutes
202 marks
Page 1 of 25
Q1. (a) State the meaning of the term electronegativity.
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...................................................................................................................... (2)
(b) State and explain the trend in electronegativity values across Period 3 from sodium to chlorine.
Trend ...........................................................................................................
Explanation .................................................................................................. (3)
(c) What is meant by the term first ionisation energy?
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(d) The diagram below shows the variation in first ionisation energy across Period 3.
(i) What is the maximum number of electrons that can be accommodated in an s sub-level?
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(ii) What evidence from the diagram supports your answer to part (d)(i)?
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(iii) What evidence from the diagram supports the fact that the 3p sub-level is higher in energy than the 3s?
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(iv) What evidence from the diagram supports the fact that no more than three unpaired electrons can be accommodated in the 3p sub-level?
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(Total 12 marks)
Q2. (a) Define the term atomic number of an element.
...................................................................................................................... (1)
(b) Give the symbol, including mass number and atomic number, for an atom of an element which contains 12 neutrons and 11 electrons.
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(c) In terms of s and p sub-levels, give the electronic configuration of an aluminium atom.
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(d) How many neutrons are there in one 27Al atom?
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(e) Define the term relative atomic mass of an element.
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(f) Parts (i) to (iv) below refer to the operation of a mass spectrometer.
(i) Name the device used to ionise atoms in a mass spectrometer.
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(ii) Why is it necessary to ionise atoms before acceleration?
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(iii) What deflects the ions?
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(iv) What is adjusted in order to direct ions of different mass to charge ratio onto the detector?
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(g) A meteorite was found to contain three isotopes of element X. A mass spectrometer gave the following information about these isotopes.
(i) Calculate the relative atomic mass of X.
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m/z 24.0 25.0 26.0
Relative abundance 64.2 20.3 15.5
(ii) Using the Periodic Table, suggest the most likely identity of element X.
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(iii) Suggest one reason why the relative atomic mass of X, given in the Periodic Table, differs from your answer to part (g)(i).
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(Total 16 marks)
Q3. There is a general trend in the values of the first ionisation energies of the elements Na to Ar. The first ionisation energies of the elements Al and S deviate from this trend.
(a) Write an equation, including state symbols, to represent the process for which the energy change is the first ionisation energy of Na.
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(b) State and explain the general trend in the values of the first ionisation energies of the elements Na to Ar.
Trend ...........................................................................................................
Explanation ..................................................................................................
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...................................................................................................................... (3)
(c) State how, and explain why, the values of the first ionisation energies of the elements Al and S deviate from the general trend.
How the values deviate from the trend .........................................................
Explanation for Al .........................................................................................
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Explanation for S ..........................................................................................
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(Total 10 marks)
Q4. (a) Complete the following table.
(3)
Particle Relative charge Relative mass
Proton
Neutron
Electron
(b) An atom of element Z has two more protons and two more neutrons than an atom of . Give the symbol, including mass number and atomic number, for this atom of Z.
...................................................................................................................... (2)
(c) Complete the electronic configurations for the sulphur atom, S, and the sulphide ion, S2–.
S 1s2 .......................................................................................................
S2– 1s2 .......................................................................................................
(2)
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(d) State the block in the Periodic Table in which sulphur is placed and explain your answer.
Block ...........................................................................................................
Explanation .................................................................................................. (2)
(e) Sodium sulphide, Na2S, is a high melting point solid which conducts electricity when
molten. Carbon disulphide, CS2, is a liquid which does not conduct electricity.
(i) Deduce the type of bonding present in Na2S and that present in CS
2
Bonding in Na2S ..................................................................................
Bonding in CS2.....................................................................................
(ii) By reference to all the atoms involved explain, in terms of electrons, how Na2S is
formed from its atoms.
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(iii) Draw a diagram, including all the outer electrons, to represent the bonding present in CS
2
(iv) When heated with steam, CS2 reacts to form hydrogen sulphide, H
2S, and carbon
dioxide. Write an equation for this reaction.
............................................................................................................. (7)
(Total 16 narks)
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Q5. The diagram below shows the values of the first ionisation energies of some of the elements in Period 3.
(a) On the above diagram, use crosses to mark the approximate positions of the values of the first ionisation energies for the elements Na, P and S. Complete the diagram by joining the crosses.
(3)
(b) Explain the general increase in the values of the first ionisation energies of the elements Na–Ar.
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(c) In terms of the electron sub-levels involved, explain the position of aluminium and the position of sulphur in the diagram.
Explanation for aluminium ............................................................................
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Explanation for sulphur .................................................................................
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(Total 10 marks)
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Q6. (a) One isotope of sodium has a relative mass of 23.
(i) Define, in terms of the fundamental particles present, the meaning of the term isotopes.
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(ii) Explain why isotopes of the same element have the same chemical properties.
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(iii) Calculate the mass, in grams, of a single atom of this isotope of sodium. (The Avogadro constant, L, is 6.023 × 1023 mol–1)
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(b) Give the electronic configuration, showing all sub-levels, for a sodium atom.
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(c) Explain why chromium is placed in the d block in the Periodic Table.
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(d) An atom has half as many protons as an atom of 28Si and also has six fewer neutrons than an atom of 28Si. Give the symbol, including the mass number and the atomic number, of this atom.
...................................................................................................................... (2)
(Total 9 marks)
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Q7. The values of the first ionisation energies of neon, sodium and magnesium are 2080, 494
and 736 kJ mol–1, respectively.
(a) Explain the meaning of the term first ionisation of an atom.
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(b) Write an equation to illustrate the process occurring when the second ionisation energy of magnesium is measured.
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(c) Explain why the value of the first ionisation energy of magnesium is higher than that of sodium.
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(d) Explain why the value of the first ionisation energy of neon is higher than that of sodium.
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(Total 8 marks)
Q8. (a) Define the terms
(i) mass number of an atom,
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(ii) relative molecular mass.
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(b) (i) Complete the electron arrangement for a copper atom.
1s2 .......................................................................................................
(ii) Identify the block in the Periodic Table to which copper belongs.
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(iii) Deduce the number of neutrons in one atom of 65Cu
............................................................................................................. (3)
(c) A sample of copper contains the two isotopes 63Cu and 65Cu only. It has a relative atomic mass, A
r, less than 64. The mass spectrum of this sample shows major peaks
with m/z values of 63 and 65, respectively.
(i) Explain why the Ar of this sample is less than 64.
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(ii) Explain how Cu atoms are converted into Cu+ ions in a mass spectrometer.
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(iii) In addition to the major peaks at m/z = 63 and 65, much smaller peaks at m/z = 31.5 and 32.5 are also present in the mass spectrum. Identify the ion responsible for the peak at m/z = 31.5 in the mass spectrum. Explain why your chosen ion has this m/z value and suggest one reason why this peak is very small.
Identity of the ion
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Explanation for m/z value ....................................................................
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Reason why this peak is very small ....................................................
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(Total 12 marks)
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Q9. A sample of iron from a meteorite was found to contain the isotopes 54Fe, 56Fe and 57Fe.
(a) The relative abundances of these isotopes can be determined using a mass spectrometer. In the mass spectrometer, the sample is first vaporised and then ionised.
(i) State what is meant by the term isotopes.
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(ii) Explain how, in a mass spectrometer, ions are detected and how their abundance is measured.
How ions are detected.........................................................................
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How abundance is measured...............................................................
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(b) (i) Define the term relative atomic mass of an element.
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(ii) The relative abundances of the isotopes in this sample of iron were found to be as follows.
Use the data above to calculate the relative atomic mass of iron in this sample. Give your answer to one decimal place.
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m/z 54 56 57
Relative abundance (%) 5.8 91.6 2.6
(c) (i) Give the electron arrangement of an Fe2+ ion.
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(ii) State why iron is placed in the d block of the Periodic Table.
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(iii) State the difference, if any, in the chemical properties of isotopes of the same element. Explain your answer.
Difference ...........................................................................................
Explanation .........................................................................................
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(Total 13 marks)
Q10. (a) State, in terms of the fundamental particles present, the meaning of the term isotopes.
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...................................................................................................................... (1)
(b) An atom contains one more proton than, but the same number of neutrons as, an atom of 36S. Deduce the symbol, including the mass number and the atomic number, of this atom.
...................................................................................................................... (2)
(c) The table below gives the relative abundance of each isotope in a mass spectrum of a sample of germanium, Ge.
(i) Complete the electron arrangement of a Ge atom.
1s2 .......................................................................................................
m/z 70 72 74
Relative abundance (%) 24.4 32.4 43.2
(ii) Use the data above to calculate the relative atomic mass of this sample of germanium. Give your answer to one decimal place.
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(iii) State what is adjusted in a mass spectrometer in order to direct ions with different m/z values onto the detector. Explain your answer.
Adjustment ..........................................................................................
Explanation .........................................................................................
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(iv) One of the isotopes of Ge, given in the table in part (c), has an ion that forms a small peak in the mass spectrum which is indistinguishable from a peak produced by 36S+ ions. Identify this Ge ion and explain your answer.
Ion .......................................................................................................
Explanation .........................................................................................
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(Total 11 marks)
Q11. In one model of atomic structure, the atom has a nucleus surrounded by electrons in levels and sub-levels.
(a) Define the term atomic number.
...................................................................................................................... (1)
(b) Explain why atoms of an element may have different mass numbers.
...................................................................................................................... (1)
(c) The table below refers to a sample of krypton.
Relative m/z 82 83 84 86
Relative abundance / % 12 12 50 26
(i) Name an instrument which is used to measure the relative abundance of isotopes.
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(ii) Define the term relative atomic mass.
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(iii) Calculate the relative atomic mass of this sample of krypton.
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(d) Give the complete electronic configuration of krypton in terms of s, p and d sub-levels.
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(e) In 1963, krypton was found to react with fluorine. State why this discovery was unexpected.
...................................................................................................................... (1)
(f) Use a suitable model of atomic structure to explain the following experimental observations.
(i) The first ionisation energy of krypton is greater than that of bromine.
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(ii) The first ionisation energy of aluminium is less than the first ionisation energy of magnesium.
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(Total 13 marks)
Q12. (a) (i) Define the term relative atomic mass (Ar) of an element.
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(ii) A sample of the metal silver has the relative atomic mass of 107.9 and exists as two isotopes. In this sample, 54.0% of the silver atoms are one isotope with a relative mass of 107.1
Calculate the relative mass of the other silver isotope.
State why the isotopes of silver have identical chemical properties.
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(b) The isotopes of silver, when vaporised, can be separated in a mass spectrometer.
Name the three processes that occur in a mass spectrometer before the vaporised isotopes can be detected.
State how each process is achieved.
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(c) State the type of bonding involved in silver.
Draw a diagram to show how the particles are arranged in a silver lattice and show the charges on the particles.
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(d) Silver reacts with fluorine to form silver fluoride (AgF).
Silver fluoride has a high melting point and has a structure similar to that of sodium chloride.
State the type of bonding involved in silver fluoride.
Draw a diagram to show how the particles are arranged in a silver fluoride lattice and show the charges on the particles.
Explain why the melting point of silver fluoride is high.
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(Total 20 marks)
Q13. (a) Complete the electronic configuration for the sodium ion, Na+
ls2 .................................................................................................................
(1)
(b) (i) Write an equation, including state symbols, to represent the process for which the energy change is the second ionisation energy of sodium.
............................................................................................................. (2)
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(ii) Explain why the second ionisation energy of sodium is greater than the second ionisation energy of magnesium.
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(iii) An element X in Period 3 of the Periodic Table has the following successive ionisation energies.
Deduce the identity of element X.
............................................................................................................. (1)
First Second Third Fourth
Ionisation energies / kJ mol–1
577 1820 2740 11600
(c) State and explain the trend in atomic radius of the Period 3 elements from sodium to chlorine.
Trend ...........................................................................................................
Explanation ..................................................................................................
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...................................................................................................................... (3)
(d) Explain why sodium has a lower melting point than magnesium.
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Page 18 of 25
(e) Sodium reacts with ammonia to form the compound NaNH2 which contains the NH
2
– ion.
Draw the shape of the NH2
– ion, including any lone pairs of electrons.
Name the shape made by the three atoms in the NH2
– ion.
Shape of NH2
–
Name of shape ............................................................................................ (2)
(f) In terms of its electronic configuration, give one reason why neon does not form compounds with sodium.
...................................................................................................................... (1)
(Total 16 marks)
Q14. The following diagram shows the first ionisation energies of some Period 3 elements.
(a) Draw a cross on the diagram to show the first ionisation energy of aluminium. (1)
(b) Write an equation to show the process that occurs when the first ionisation energy of aluminium is measured.
...................................................................................................................... (2)
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(c) State which of the first, second or third ionisations of aluminium would produce an ion with
the electron configuration 1s2 2s2 2p6 3s1
...................................................................................................................... (1)
(d) Explain why the value of the first ionisation energy of sulfur is less than the value of the first ionisation energy of phosphorus.
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...................................................................................................................... (2)
(e) Identify the element in Period 2 that has the highest first ionisation energy and give its electron configuration.
Element .......................................................................................................
Electron configuration .................................................................................. (2)
(f) State the trend in first ionisation energies in Group 2 from beryllium to barium. Explain your answer in terms of a suitable model of atomic structure.
Trend …........................................................................................................
Explanation ..................................................................................................
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(Total 11 marks)
Q15. This question is about the first ionisation energies of some elements in the Periodic Table.
(a) Write an equation, including state symbols, to show the reaction that occurs when the first ionisation energy of lithium is measured.
..................................................................................................................... (1)
Page 20 of 25
(b) State and explain the general trend in first ionisation energies for the Period 3 elements aluminium to argon.
Trend ..........................................................................................................
Explanation .................................................................................................
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(Extra space)...............................................................................................
..................................................................................................................... (3)
(c) There is a similar general trend in first ionisation energies for the Period 4 elements gallium to krypton.
State how selenium deviates from this general trend and explain your answer.
How selenium deviates from this trend ......................................................
Explanation .................................................................................................
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(Extra space)................................................................................................ (3)
(d) Suggest why the first ionisation energy of krypton is lower than the first ionisation energy of argon.
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..................................................................................................................... (1)
(e) The table below gives the successive ionisation energies of an element.
Deduce the group in the Periodic Table that contains this element.
..................................................................................................................... (1)
First Second Third Fourth Fifth
Ionisation energy / kJ mol–1 590 1150 4940 6480 8120
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(f) Identify the element that has a 5+ ion with an electron configuration of
1s2 2s2
2p6 3s2
3p6 3d10
..................................................................................................................... (1)
(Total 10 marks)
Q16. The element nitrogen forms compounds with metals and non-metals.
(a) Nitrogen forms a nitride ion with the electron configuration 1s2 2s2 2p6
Write the formula of the nitride ion.
........................................................................................................................ (1)
(b) An element forms an ion Q with a single negative charge that has the same electron configuration as the nitride ion. Identify the ion Q.
........................................................................................................................ (1)
(c) Use the Periodic Table and your knowledge of electron arrangement to write the formula of lithium nitride.
........................................................................................................................ (1)
(d) Calcium nitride contains 81.1% by mass of the metal. Calculate the empirical formula of calcium nitride. Show your working.
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(e) Write an equation for the reaction between silicon and nitrogen to form silicon nitride, Si3N
4
........................................................................................................................ (1)
(Total 7 marks)
Q17. (a) Use your knowledge of electron configuration and ionisation energies to answer this question. The following diagram shows the second ionisation energies of some Period 3 elements.
(i) Draw an ‘X’ on the diagram to show the second ionisation energy of sulfur. (1)
(ii) Write the full electron configuration of the Al2+ ion.
............................................................................................................... (1)
(iii) Write an equation to show the process that occurs when the second ionisation energy of aluminium is measured.
............................................................................................................... (1)
(iv) Give one reason why the second ionisation energy of silicon is lower than the second ionisation energy of aluminium.
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(b) Predict the element in Period 3 that has the highest second ionisation energy. Give a reason for your answer.
Element ........................................................................................................
Reason .........................................................................................................
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........................................................................................................................ (2)
(c) The following table gives the successive ionisation energies of an element in Period 3.
Identify this element.
........................................................................................................................ (1)
First Second Third Fourth Fifth Sixth
Ionisation
energy / kJ mol−1 786 1580 3230 4360 16100 19800
(d) Explain why the ionisation energy of every element is endothermic.
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(Extra space) .................................................................................................
........................................................................................................................ (1)
(Total 8 marks)
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