Wednesday, December 15, 2021

CAPE Chemistry June 2021 Unit 1 Paper 2 - Past Paper Solutions

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Notes relevant to each question follow the solutions.


Question 1 Notes:

1(e)    It could be that CXC has obtained permission to use past exam questions from         
          different examining bodies. Here is the source of this         




Source Of CAPE Chemistry June 2021 U1 P2 Q1(e)

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The question below was seen before, in a 2005 paper from another examining body.

Its mark scheme follows. The only significant difference is "NaoH" in part (iv) of the CAPE exam vs. "NaOH" in the corresponding part of the original question.













Saturday, June 12, 2021

CAPE Chemistry June 2009 U1 P1 - Answers And Explanations

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Download Paper Here


1. B

2. D

3. A

4. D

5. C

6. D

7. B

8. C

9. C

10. B

11. C

12. D

13. C

14. B

15. D

16. A

17. B

18. C

19. B

20. A

21. D

22. B

23. A

24. C

25. B

26. A

27. D

28. C

29. B

30. B - Detailed solution below.

31. A

32. B

33. D

34. B

35. C

36. A

37. D

38. C

39. D

40. A

41. D

42. A

43. D

44. C

45. B


Question # 30 - Detailed Solution












Hydrogen Emission Spectrum

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Theory for this syllabus section, U1 M1 SS 1.7 is broken up into 6 small, and easily manageable parts. After going through them, you will be shown how to use each part to answer the only three CAPE past paper questions on the topic. They are:

  1. 2019 U1 P2 Q1(a) - Link to paper
  2. 2009 U1 P2 Q1(a) - Link to paper
  3. 1999 U1 P2 Q4(a)

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Part 1

Each element has a characteristic 'fingerprint' line emission spectrum due to its unique arrangement of electrons/electronic configuration. The simplest of these is produced by hydrogen.

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Part 2

  • When sufficient energy is supplied to the atoms of hydrogen, an electron is promoted (excited) from a lower energy level to a higher energy level where it becomes unstable.
  • The unstable electron will emit the excess energy as radiation and drop back to the lower energy level. Each line in the emission spectrum occurs due to the transitions of electrons moving from a higher energy level to a lower energy level.
  • The energy difference between the higher energy level and lower energy level is fixed. The fixed frequencies of each line provide evidence for discrete energy levels.
  • Each line represents emitted radiation of a specific wavelength and frequency. Electronic transitions from higher levels to the level, n = 2 give rise to a series of lines known as the Balmer series.
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Part 3

In summary,
  • Electrical or thermal energy is passed through and absorbed by a sample of the element.
  • Radiation is emitted at certain wavelengths and frequencies.
  • The emission spectrum consists of separate lines at the particular frequencies.
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Part 4

Electron transitions occurring between energy levels associated with the hydrogen emission spectrum are shown in the diagram below.


These transitions produce the hydrogen spectrum which follows.

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Part 5













The three main regions of the hydrogen emission spectrum, as related to series of lines are:

Lyman series < 400 nm - ultraviolet region.
Balmer series 400 nm to 700 nm - visible region.
Paschen series > 700 nm - infrared region.

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Part 6

To calculate the energy, E, of a quantum of radiation with a frequency (ν) of 4.57 × 1014 Hz where h = 4 ×10-13 kJ s mol-1, we use the formula E = hν as illustrated next.

E = h × ν
   = 4 ×10-13 kJ s mol-1 × 4.57 × 1014 Hz
   = 182.8 kJ mol-1

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How To Answer The Past Paper Questions

2019 U1 P2 Q1(a)(i) - Each point in Part 3 is one mark each.
2019 U1 P2 Q1(a)(ii) - Part 5 says it is the Balmer series.
2019 U1 P2 Q1(a)(iii) - First three points and first sentence in 4th point of Part 2 are one mark each.
2019 U1 P2 Q1(a)(iv) - Lines in Balmer series, only, of Part 4 for full marks.

2009 U1 P2 Q1(a)(i) - Answer is found in Part 1.
2009 U1 P2 Q1(a)(ii) - Draw just Balmer part of diagram in Part 5 and label as required.
2009 U1 P2 Q1(a)(iii) - First, second and fourth points in Part 2 will get you full marks.
2009 U1 P2 Q1(a)(iv) - Part 5 says it is in the visible region.
2009 U1 P2 Q1(a)(v) - Part 6 is the solution.

1999 U1 P2 Q4(a)(i) - Same as 2009 U1 P2 Q1(a)(ii)
1999 U1 P2 Q4(a)(ii) - Same as 2019 U1 P2 Q1(a)(ii)
1999 U1 P2 Q4(a)(iii) - All four points in Part 2 for full marks.


Saturday, May 29, 2021

Transition Elements

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Exam Tip For 2021

Vanadium is most likely to come in 2021 (last seen 11 years ago) and copper is second most likely (last seen 12 years ago).

Colours and formulae of all species required in CAPE past papers for at least the last 15 years are shown below:


Learn these and you'll be able to handle the following questions:

  1. 2019 U1 P2 Q3(d)(iii)
  2. 2014 U1 P2 Q3(d)(i)
  3. 2010 U1 P2 Q3(a)
  4. 2009 U1 P2 Q3(d)
  5. 2008 U1 P2 - Resit Q3(b)(i)
  6. 2004 U2 P2 - Q2(b)(i)
Past papers from 2005 to 2016 can be found here: Past Paper Booklet

Definitions To Learn


Transition element - A d-block element whose atom has an incomplete d sub-shell or forms at least one stable ion with a partially filled d sub-shell.

Ligand - A molecule, atom or ion that bonds with a central metal atom/ion by donating an electron pair.

These are worth a maximum of 2 marks each and are the answers to:

  1. 2019 U1 P2 Q3(d)(i)
  2. 2014 U1 P2 Q3(a)
  3. 2007 U1 P2 Q6(a)(i)