Ionisation energies provide evidence for the arrangement of electrons in atoms. 1s 2... (1) (2)

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1 State the relative charge and relative mass of a proton, of a neutron and of an electron. In terms of particles, explain the relationship between two isotopes of the same element. Explain why these isotopes have identical chemical properties. (7) Define the term relative atomic mass. An element exists as a mixture of three isotopes. Explain, in detail, how the relative atomic mass of this element can be calculated from data obtained from the mass spectrum of the element. (7) (Total 14 marks) 2 Ionisation energies provide evidence for the arrangement of electrons in atoms. Complete the electron configuration of the Mg + ion. 1s 2... (i) State the meaning of the term first ionisation energy. (ii) Write an equation, including state symbols, to show the reaction that occurs when the second ionisation energy of magnesium is measured. (iii) Explain why the second ionisation energy of magnesium is greater than the first ionisation energy of magnesium. Page 1 of 7

(iv) Use your understanding of electron arrangement to complete the table by suggesting a value for the third ionisation energy of magnesium. First Second Third Fourth Fifth Ionisation energies of magnesium / kj mol 1 736 1450 10 500 13 629 (c) State and explain the general trend in the first ionisation energies of the Period 3 elements sodium to chlorine. Trend... Explanation... (3) (d) State how the element sulfur deviates from the general trend in first ionisation energies across Period 3. Explain your answer. How sulfur deviates from the trend... Explanation... (3) (e) A general trend exists in the first ionisation energies of the Period 2 elements lithium to fluorine. Identify one element which deviates from this general trend. (Total 13 marks) 3 A student studying GCSE science is puzzled by data which indicate that a sodium atom is larger than a chlorine atom and that a sodium ion is smaller than a chloride ion. How should an A level Chemistry student explain this apparently conflicting information. (Total 6 marks) Page 2 of 7

4 A sample of ethanedioic acid was treated with an excess of an unknown alcohol in the presence of a strong acid catalyst. The products of the reaction were separated and analysed in a time of flight (TOF) mass spectrometer. Two peaks were observed at m / z = 104 and 118. Identify the species responsible for the two peaks......... Outline how the TOF mass spectrometer is able to separate these two species to give two peaks................. (Total 6 marks) 5 In one model of atomic structure, the atom has a nucleus surrounded by electrons in levels and sub-levels. Define the term atomic number. Explain why atoms of an element may have different mass numbers. (c) The table below refers to a sample of krypton. Relative m/z 82 83 84 86 Relative abundance / % 12 12 50 26 Page 3 of 7

(i) Name an instrument which is used to measure the relative abundance of isotopes. (ii) Define the term relative atomic mass. (iii) Calculate the relative atomic mass of this sample of krypton. (5) (d) Give the complete electronic configuration of krypton in terms of s, p and d sub-levels. (e) In 1963, krypton was found to react with fluorine. State why this discovery was unexpected. (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. (ii) The first ionisation energy of aluminium is less than the first ionisation energy of magnesium. (Total 13 marks) Page 4 of 7

6 A sample of sulfur consisting of three isotopes has a relative atomic mass of 32.16. The following table gives the relative abundance of two of these isotopes. Mass number of isotope 32 33 Relative abundance / % 91.0 1.8 Use this information to determine the relative abundance and hence the mass number of the third isotope. Give your answer to the appropriate number of significant figures. Mass number =... Describe how ions are formed in a time of flight (TOF) mass spectrometer........... (c) A TOF mass spectrometer can be used to determine the relative molecular mass of molecular substances. Explain why it is necessary to ionise molecules when measuring their mass in a TOF mass spectrometer........... (Total 8 marks) Page 5 of 7

7 Define the term relative atomic mass. An organic fertiliser was analysed using a mass spectrometer. The spectrum showed that the nitrogen in the fertiliser was made up of 95.12% 14 N and 4.88% 15 N Calculate the relative atomic mass of the nitrogen found in this organic fertiliser. Give your answer to two decimal places. In a mass spectrometer, under the same conditions, 14 N + and 15 N + ions follow different paths. State the property of these ions that causes them to follow different paths. State one change in the operation of the mass spectrometer that will change the path of an ion. Page 6 of 7

(c) Organic fertilisers contain a higher proportion of 15 N atoms than are found in synthetic fertilisers. State and explain whether or not you would expect the chemical reactions of the nitrogen compounds in the synthetic fertiliser to be different from those in the organic fertiliser. Assume that the nitrogen compounds in each fertiliser are the same. (Total 8 marks) Page 7 of 7

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