Extended essay in chemistry
The following is an overview of the extended essay guidelines for chemistry (IBO documents)
An extended essay in chemistry provides students with an opportunity to investigate a particular aspect of the materials of our environment. Such extended essays must be characterized by a particular chemical emphasis within a more general set of research criteria.
The outcome of the research should be a coherent and structured piece of writing that effectively addresses a particular issue or research question and arrives at a particular, and preferably personal, conclusion.
Choice of topic
It is important that the extended essay has a clear chemical emphasis and is not more closely related to another subject. Chemistry is the science that deals with the composition, characterization and transformation of substances. A chemistry extended essay should, therefore, incorporate chemical principles and theory, and emphasize the essential nature of chemistry, relating to the study of matter and of the changes it undergoes.
Although the same assessment criteria apply to all extended essays, for an extended essay submitted in chemistry the topic chosen must allow an approach that distinctly involves chemistry. Where a topic might be approached from different viewpoints, the treatment of the material must be approached from a chemistry perspective. For example, an extended essay in an interdisciplinary area such as biochemistry will, if registered as a chemistry extended essay, be judged on its chemical content, not its biological content.
The scope of the topic and the research associated with it should enable all the criteria to be addressed. A good topic is one where the single research question is sharply focused and can be treated effectively within the word limit. Perhaps the most important factor is the depth of treatment that can be given to the topic by the student. Broad or complex survey topics (for example, investigations into health problems caused by water pollution, chemotherapy for cancer treatment or the use of spectroscopy in chemical analysis) will not permit the student to discuss conflicting ideas and theories, nor to produce an in-depth personal analysis within the word limit.
Some topics may be unsuitable for investigation because of safety issues. For example, experiments involving toxic or dangerous chemicals, carcinogenic substances or radioactive materials should be avoided unless adequate safety apparatus and qualified supervision are available.
Other topics may be unsuitable because the outcome is already well known and documented in standard textbooks, and the student may not be able to show any personal input. An example might be a study of the reactions of the alkali metals with water as this is already covered by the syllabus. However, some care does need to be exercised in deciding whether a topic is suitable or not; for example, previously, the study of the allotropes of carbon might have been thought to be trivial but this would not be the case today.
Example essay titles
The following examples of titles for chemistry extended essays are intended as guidance only. The pairings illustrate that focused topics (indicated by the first title) should be encouraged rather than broad topics (indicated by the second title).
The ratio of the gases evolved at the positive electrode during the electrolysis of common salt solution is better than Electrolysis of solutions.
Spectrophotometric determination of trace amounts of lead in drinking water is better than Water analysis.
The effects of sugar-free chewing gum on the pH of saliva in the mouth after a meal is better than Acidbase chemistry.
How can the natural oxidant rutin be extracted and purified from the seed of the Chinese Scholartree? is better than Extraction of natural products from plants.
Moreover, it may help if the student further defines and refines the topic chosen for study in the form of a research question or statement.
The ratio of the gases evolved at the positive electrode during the electrolysis of common salt solution
Is there a relationship between the concentration of aqueous sodium chloride solution and the ratio of the amounts of oxygen and chlorine gas that are evolved at the positive electrode during electrolysis.
The caffeine content of a cup of tea
Does the time it takes to brew a cup of tea using a specific commercial brand of tea leaves significantly alter the amount of caffeine that is dissolved in the drink?
Analysis of strawberry jellies by paper chromatography
The use of paper chromatography to determine whether strawberry jellies obtained from 24 different countries in 5 different continents all contain the same red dyes.
Treatment of the topic
An extended essay in chemistry may be based on literature, theoretical models or experimental data. Whichever category or combination of categories is chosen, the student should ensure that sufficient data is available for evaluation and that the topic can be researched accurately using locally available resources.
Students who choose to write an extended essay based on literature and/or surveys should ensure that their extended essay clearly shows its chemical basis. Essays written at the level of a newspaper or news magazine article are unlikely to achieve a high mark.
Since chemistry is an experimental science, students are strongly encouraged to undertake experimental work as part of their research, although this is not compulsory. In order to place their research into the appropriate context, students should research the area of the investigation before commencing any experimental work. Where possible, they should consult original research using scientific journals, personal communications and the internet. Textbooks should never be the only source of information.
All essays involving experimental work undertaken by the student should include a clear and concise description of the experimental work. Students should indicate clearly whether they have personally designed the experiment, or give the source of an existing experiment method that they have used and state how they have adapted and improved upon it. All essays must be supervised by a school supervisor.
Many of the best essays are written by students investigating relatively simple phenomena using apparatus and materials that can be found in most school laboratories, and this approach is to be encouraged. If the practical work is carried out in an industrial or university laboratory, the essay should be accompanied by a letter from the external supervisor outlining the nature of the supervision and the level of guidance provided. The school supervisor must be satisfied that the work described in the essay is genuine and essentially that of the student.
Data collected from an experiment designed by the student is of little value unless it is analysed using appropriate scientific techniques, evaluated and perhaps compared with appropriate models.
It is possible to produce an extended essay in chemistry in which the student has used data collected elsewhere as the primary source. In such cases, the element of personal analysis and evaluation is extremely important.
In any chemistry extended essay, students should be able to demonstrate that they understand the theory underlying any experimental work and state any assumptions made. They should show an understanding of the results obtained and be able to interpret them with reference to the research question posed. They should be critical of inadequate experimental design, the limitations of the experimental method and any systematic errors.
Students should be encouraged to consider unresolved questions in their research, and to suggest new questions and areas for further investigation in their conclusion. Throughout the whole of the essay, students should emphasize clearly their own personal contribution.
Interpreting the assessment criteria
Criterion A: research question
Many research questions can be formulated as an actual question or questions. A typical example is: What gas is evolved when zinc is added to copper (II) sulfate solution and what factors affect its formation?. However, in chemistry extended essays it is perfectly reasonable to formulate the research question as a statement or as a hypothesis rather than an actual question. An analysis of the amount of aluminium in three different brands of underarm deodorant by visible spectroscopy and The kinetics of oxidation of iodide ions with hydrogen peroxide in acidic solutions are two such examples where a statement rather than a question is appropriate. Whichever way it is formulated, it should be identified clearly as the research question and set out prominently in the introduction.
Criterion B: introduction
The purpose of the introduction is to set the research question into context, that is, to relate the research question to existing knowledge in chemistry. It is usually appropriate to include also the underlying chemical theory required to understand how the research question has arisen. Some research questions require some background knowledge that is not related to chemistryfor example, Do the fossils found in different strata of rocks at a particular location contain different amounts of sulfur? . For the essay to make sense, it would be important to state the ages of the rocks and give some geological background. In such cases, only the essential non-chemistry information should be provided in the introduction, as the essay will be marked on its chemical content. If it is necessary to include more non-chemistry (for example, geological) information, then the appropriate place for it is the appendix.
Criterion C: investigation
The way in which the investigation is undertaken will depend very much on whether or not the essay contains experimental work performed by the student. For non-experimental essays, students should endeavour to show clearly how the data has been selected. They should distinguish between primary sources (original scientific publications, personal communications, interviews) and secondary sources (textbooks, newspaper articles, reviews), and show awareness of how reliable these sources are. For experimental work, sufficient information should be provided so that the work could be repeated if necessary by an independent worker. Students should make it clear which experiments they have designed themselves and which they have altered, adapted or improved from existing methods.
Criterion D: knowledge and understanding of the topic studied
Students should show that they understand fully the underlying chemistry behind the context of their research question and their subsequent investigation. They are not expected to explain basic chemistry forming part of the Diploma Programme chemistry course, but they are expected to show that they fully understand the relevant principles and ideas and can apply them correctly. They should also demonstrate that they understand the theory behind any techniques or apparatus used.
Criterion E: reasoned argument
Students should be aware of the need to give their essays the backbone of a developing argument. A good argument in chemistry will almost certainly include consideration and comparison of different approaches and methods directly relevant to the research question. Straightforward descriptive or narrative accounts that lack analysis do not usually advance an argument and should be avoided.
Criterion F: application of analytical and evaluative skills appropriate to the subject
A thorough understanding of the reliability of all data used to support the argument should be shown. Inadequate experimental design or any systematic errors should be exposed. The magnitude of uncertainties in physical data should be evaluated and discussed. Approximations in models should be accounted for and all assumptions examined thoroughly. Where possible, the quality of sources accessed or data generated should be verified by secondary sources or by direct calculations.
Criterion G: use of language appropriate to the subject
Correct chemical terminology and nomenclature should be used consistently and effectively throughout the extended essay. Relevant chemical formulas (including structural formulas), balanced equations (including state symbols) and mechanisms should be included. The correct units for physical quantities must always be given and the proper use of significant figures is expected.
Criterion H: conclusion
The conclusion must be consistent with the argument presented and should not merely repeat material in the introduction or introduce new or extraneous points to the argument. In chemistry, it is almost always pertinent to consider unresolved questions and to suggest areas for further investigation.
Criterion I: formal presentation
This criterion relates to the extent to which the essay conforms to academic standards about the way in which research papers should be presented. The presentation of essays that omit a bibliography or that do not give references is deemed unacceptable (level 0). Essays that omit one of the required elementstitle page, table of contents, page numbersare deemed no better than satisfactory (maximum level 2), while essays that omit two of them are deemed poor at best (maximum level 1).
The essay must not exceed 4,000 words of narrative. Graphs, figures, calculations, diagrams, formulas and equations are not included in the word count. For experiments where numerical results are calculated from data obtained by changing one of the variables, it is generally good practice to show one example of the calculation. The remainder can be displayed in tabular or graphical form.
Criterion J: abstract
The abstract is judged on the clarity with which it presents an overview of the research and the essay, not on the quality of the research question itself, nor on the quality of the argument or the conclusions.
Criterion K: holistic judgment
Qualities that are rewarded under this criterion include the following.
Intellectual initiative: Ways of demonstrating this in chemistry essays include the choice of topic and research question, and the use of novel or innovative approaches to address the research question.
Insight and depth of understanding: These are most likely to be demonstrated as a consequence of detailed research and thorough reflection, and by a well-informed and reasoned argument that consistently and effectively addresses the research question.
Originality and creativity: These will be apparent by clear evidence of a personal approach backed up by solid research and reasoning.
The assessment criteria
Past essay titles
Example extended essay 2013
Example extended essay 2013
Example extended essay 2013
Example extended essay 2012
Example extended essay 2012
Extended essay examiners report 2012
Here is a list of suggestions for Science Investigations. Please add/amend/extend the list as you see fit. This is essentially a brainstorm...
Some industries will mix liquids by cascading one liquid into another, assuming mixing will be complete. These drops may prevent complete mixing and need to be investigated.
Recent research has shed light on this phenomenon: The fast-moving shiny drops that skid across the surface of soapy water. Detergents play a crucial role – but how does the concentration of detergent affect the drops? What about ‘non-ionic’ detergents? What about a surface of anionic detergents and drops of cationic ones?
Challenges: Making drop-producing apparatus, Researching the chemistry of detergents, Assessing the numbers of drops
Thiosulphate/acid reaction (‘disappearing cross’)
Chemical engineers wishing to check if turbidity is a useful surrogate measurement for whether a reaction has reached completion.
How does the reaction respond to changes in acid concentration (it is first order for thiosulphate concentration but varies from first to zero order with acid).
How can we assess the amount of oil contamination on beaches?
Various groups will want to assess oil contamination, and a simple quick method would be appreciated.
The method used solvent extraction. Sand samples were laced with oil and the efficiency of recovery was measured. The sensitivity of the method was also estimated.
Synthesis and isolation of propanoic acid from propan-1-ol.
Chemical suppliers who want to investigate production of this chemical.
Trialling different methods.
Making biodiesel from waste vegetable oil.
Motoring enthusiasts who want to make their own environmentally-friendly and cheap fuel.
Using methanol and sodium hydroxide it is possible to make diesel fuel from old chip fat.
Analysing the gases remaining after burning a candle in a gas jar.
Motor vehicle engineers who want to check the composition of exhaust gases.
CO2 is easy; it is readily absorbed with NaOH.
O2 is harder; an oxygen probe is very useful but otherwise oxygen could be absorbed by, for example, the slow reaction of steel wool.
CO is challenging; it will be absorbed by CuCl solution but it is in very low concentrations.
Suppliers or independent analysts want to assess the caffeine content of tea products. Chemical suppliers want to provide pure caffeine to clients.
This method usually involves solvent extraction with a chlorinated alkane (e.g. dichloromethane or 1,1,1,-trichloroethane). With care it is possible to recycle the solvent and avoid health and environmental damage.
- Investigation of weak acid strengths/synthesis of new acids
- Rate expression for tin/iodine reaction – kinetics of a reaction
- Nobili’s rings – strange colours seen during electrolysis.
- A transient red colour – the chemistry of iron/sulphate complexes.
- Liesegang rings – stripey effects in gels.
- Polarimetry to investigate concentrations of sugars. Suppliers of sugar syrups who want to assess their products.
- Flame photometry to determine concentrations of aqueous ions. Analysis of mineral water samples to check manufacturers' claims.
- Is the level of chloramines found in swimming pool water affected by temperature? Swimming pool operators concerned about eye irritation amongst their customers.
- Effectiveness of two major washing powders on five common household stains. Consumer testing organisation who wants to test commercial claims.
- Factors affecting the decomposition of biodegradable plastics. Environmental agencies testing claims of environmental-friendliness from plastics manufacturers.
- Studies of infrared spectroscopy: nature and applications. Applications include breath-testing for alcohol and testing vehicle exhaust emissions.
- NaCl and potential alternatives to NaCl as a roadway de-icer. Highways agency investigating de-icers which cause less environmental damage - but at what cost?
- Synthesis and analysis of hexane-3,4-diol.
- Calcium carbonate content of seashells.
- Characterisation of New Polyethylenes Prepared by Single-Site Catalysis.
- An Investigation Into The Uses Of Environmentally Friendly Additives/Alternatives To Petrol.
- A study into the colour of ketchup.
- Comparison By Spectral Characterisation Of Myoglobin In Beef, Pork and Turkey.
- Spectrophotometric Determination of Trace Amounts of Iron in Plant Samples.
- The effect of disulphide reduction on the structure, and activity of Yeast Alcohol Dehydrogenase.
- Investigation into the effect of pH on the mechanism of glycation of phenylalanine as a model of the glycation of the B chain of insulin.
- Analysis of Vitamin C in Orange Juice through a Chemiluminescent Clock Reaction.
- Investigating the Effect of Different Halide Ions on the Stern Volmer Constant.
- Developing and Validating an Assay for Tissue Thiols and the Analysis of the Effects of Aging and Taurine on Tissue Thiols.
- Relation between the Slow Relaxation Time and Foaming of Selected ICI Surfactants.
- Purification of ibuprofen from commercial tablets.
- Building a breathalyser.g
- Titration of various commercial vinegar samples.
- Titration of vitamin C content of commercial fruit juices.
- Investigation in the synthesis of acetylsalicylic acid (aspirin).
- ↑ abcdefghijklmnopqrstSuggested IB Extended Essay projects
- ↑ abcdIn search of more solutions - Royal Society of Chemistry resource book