The readability ofselected A-level biologyexamination papers
lane Richardson and Roger Lock
This pilot study sets out to determine whether A-level students understand the
meaning of questions set in JMB and AEB biology papers
Introduction
This pilot study was carried out to determine whetherthe language used in A-level examinations allowsstudents to demonstrate their biological knowledgeand understanding. Complex language may act as abarrier between examiner and candidate and is likelyto hinder performance. We were also concerned toinvestigate whether different examination boardsphrase their questions in equally complex language. Ifnot, students entering examinations set by one board
. Abstract .... ~ .•..Students' understanding of the language_used in selectedA-level biology examination papers was investigated ilithree ways. First, a number of potentially ·difficvlt ·words
were presented in their original sentence context tostudents, who were asked to Indicate their level ofunderstanding and to suggest suitable synonyms. .
Secondly, question samples from .the Joint MatriculationBoard [JMB) and the Associated Examination Board [AEB)A-level biology papers were ahalysed using readabilityformulae. A third approach sampled questions set by thetwo Boards ond onalysed the incidence· of Graece-latin
words thot were induded ...
Results from the first approach suggest that many A-levelstudents ore not confident of the meanings of severalwords commonly used on A-level biology examination
papers. Results from the second approach Indicate that
the readability of parts of AEB and JMB papers is·unsuitable for unsupervised reading by 1B-yeor-olds of
average ability. The results obtained using theGraece-latin instrument showed that text samples that
were less readable also had 0 high incidence ofGraece-latin words, suggesting thot these texts may be
conceptually difficult and daunting to students.Key words: A-level biology, Exa'r'ination ·pClpers,
Readability.
may be disadvantaged, compared to students enteringthe same examination set by another board.
Teaching and examining are rather different activities. One aim of teaching may be to broaden thelanguage experience of students. Examinations arenot usually a vehicle for further learning: their primary aim is to find out what students know and can do.The language used in examinations, therefore, mustaim to communicate with clarity between the examiners and examinees. Examiners must state distinctly what is expected of candidates, and this mustbe understood by the vast majority of them. The roleof the language used in examinations is not languageeducation. Questions should, as far as possible, bephrased in language that the vast majority of candidates can understand.
It is our experience that some candidates claimthat they do not understand A-level biology questions, although they may be able to answer them oncethey have been 'translated' into simpler English. Insome cases, it seems that it is the language in whichthe questions are phrased that is problematic, ratherthan the biological subject matter.
Although technical language may have a vital roleto play in science, students often find it difficult. Onereason may be that the language register of schoolsubjects, including science, tends to be rather impersonal and uses terms in ways which are not part of thestudents' everyday language. As this terminology isalien to the student, it can act as a barrier to learning.
Barnes (1969) questions the functions of subjectspecific registers and considers that they are partlydue to history and convention, and not simply due toa desire for clear thinking and expression.
Teachers tend to be aware of technical terms andthese are generally presented to students (Barnes.1969). However, there is a danger that the teaching of
Journal of Biological Education (1993) 27 (3) 205
./ ..../~~d~6fwra(Gmm6mm ~\\u\}n\Ri~\\~ytl'5t)\\hM Lock'11 • :"'JIII'.\ •••••••••• II.IalO\
........ ~ ..". Methodsterminology may be over-empha~i2ed, and can takeon a value of its own. This can prevent the teacherfrom noticing poor student comprehension of underlying concepts (Barnes, 1969).
Many scientific terms are derived from Greek andLatin words. These terms, such as polymorphonuclear granulocyte, can seem long and difficult andstudents, therefore, may see the concepts that theyrepresent as irrelevant (Evans, 1973; Merzyn, 1987).Such terms may hinder learning and, if used inexamination papers, examination performance.
It is of vital importance that the readability of anywritten material should be matched to the readingabilities of the students to whom it will be presented.This is particularly important when the writtenmaterial is an examination paper. However, it is wellknown that some examination candidates are unable
to understand the questions in front of them (Johnstone and Cassels, 1978; Otterburn and Nicholson,1976). Despite this, examiners may seem to take it forgranted that students will understand the words thatthey use in examination papers (Mobley, 1987). If astudent misunderstands a question in an examination,it cannot be rephrased and clarified as it could be in aface-to-face situation. Therefore, a student may give a'correct' answer, but to the 'wrong' question (Mobley,1987). Questions should be understood by all of thecandidates, and examiners should aim to write questions that are free from bias, such as assumed generalknowledge (Mobley, 1987). If this is not the case,some students may be tested, not on their understanding and ability in the examination subject, but ontheir familiarity with the particular style of Englishused in examination papers.
Examination questions are usually written in aformal style with frequent use of passive impersonaland imperative verbs (Threadgold, 1982). Althoughthis style oflanguage is conventional in examinations,it is far removed from students' spoken language(Mobley, 1987). However, candidates may becomeused to this style if they are exposed to it frequentlyenough (Threadgold, 1982). They may be taughtspecifically how to cope with this form of language intheir lessons, where it may be referred to as 'examination technique'. In their lessons, students also learnthe language style in which they are expected to writetheir answers. This style should be consistent, so thatstudents know what to expect in questions and whatexaminers expect in answers. Students may havedifficulties if these conventions are not followed.
This study focused on the language used inselected A-level biology examination papers produced by the Associated Examining Board (AEB) andthe Joint Matriculation Board (JMB). The aims wereto discover if both Boards present students withlanguage of the same difficulty; to see if the languageof the papers is consistent within sections of a paperand from year to year; and to see if students areconfident of the meaning of selected words used in Alevel biology examination papers.
1. Student perception of word comprehensionTwenty words were selected for study drawn froJMB A-level biology papers set in 1984, 1985 or 198The words were underlined and presented in tloriginal question context to 19 A-level biology stdents in the first year of their course (term 3). Stdents were asked to indicate their level of understan
ing using a four-point Likert Scale. Nine words weselected because they appeared in the Cassels alJohnstone (1978) list of words (marked + in table'The further 11 words were chosen because they wethought to cause students difficulty, and were COlmonly encountered in A-level examination papers.
A disadvantage of this method is that studermay claim, either deliberately or mistakenly,understand words with which they are not convesant. To circumvent this problem, students were alasked to indicate an alternative word or phrase thcould have been used instead of the underlined wor
2. Readability formulae studyReadability formulae require cautious and judiciouse, not least in a study of this type. They give:indication of the age of an average student who couunderstand the material, with an error of at least :f
year for the most valid and reliable tests. In this studwhere the students were not of average ability, bsome of the most able in the age group, further carerequired in application of the formulae and in tinterpretation of the data that they provide.
In selecting which formulae to use, this study wguided by Lunzer and Gardner (1979). After cloconsideration of nine formulae, they chose to use tFlesch grade score because it correlates well wipooled teacher judgements and is quite easy to use.addition, the tool is widely used in the literature alhas been applied in parallel studies to the current 0(Williamson, 1986). Word passages were selectedrandom and the formula was applied but where tquestion style was inappropriate to the Flesch teenique it was not employed, for example multipchoice sections (JMB) and the short question secti,of the AEB paper I.
Although readability formulae are imperfect toothe results obtained from them are more reliable
confirmed by the results of other formulae, especiaif they rely on different parameters in their compu1tion. For this reason, another formula was also useThe Forcast formula was selected as it is valid wi
material aimed at this age group, and can be uswith text that is not written in proper sentences.can, therefore, be used with those sections of tpapers which cannot be analysed using the Flesformula.
Formulae rejected for this study included the Fgraph, Mugford, FOG and SMOG formulae. TFry graph is not easily applied to short sentences wia large number of long words, or to long sentenc
206 Journal of Biological Education (1993) 27 (3)
The readability of selected A-level biology examination papers Richardson and Lock
terminology may be over-emphasized, and can takeon a value of its own. This can prevent the teacherfrom noticing poor student comprehension of underlying concepts (Barnes, 1969).
Many scientific terms are derived from Greek andLatin words. These terms, such as polymorphonuclear granulocyte, can seem long and difficult andstudents, therefore, may see the concepts that theyrepresent as irrelevant (Evans, 1973; Merzyn, 1987).Such terms may hinder learning and, if used inexamination papers, examination performance.
It is of vital importance that the readability of anywritten material should be matched to the readingabilities of the students to whom it will be presented.This is particularly important when the writtenmaterial is an examination paper. However, it is wellknown that some examination candidates are unable
to understand the questions in front of them (Johnstone and Cassels, 1978; Otterburn and Nicholson,1976). Despite this, examiners may seem to take it forgranted that students will understand the words thatthey use in examination papers (Mobley, 1987). If astudent misunderstands a question in an examination,it cannot be rephrased and clarified as it could be in aface-to-face situation. Therefore, a student may give a'correct' answer, but to the 'wrong' question (Mobley,1987). Questions should be understood by all of thecandidates, and examiners should aim to write questions that are free from bias, such as assumed generalknowledge (Mobley, 1987). If this is not the case,some students may be tested, not on their understanding and ability in the examination subject, but ontheir familiarity with the particular style of Englishused in examination papers.
Examination questions are usually written in aformal style with frequent use of passive impersonaland imperative verbs (Threadgold, 1982). Althoughthis style of language is conventional in examinations,it is far removed from students' spoken language(Mobley, 1987). However, candidates may becomeused to this style if they are exposed to it frequentlyenough (Threadgold, 1982). They may be taughtspecifically how to cope with this form of language intheir lessons, where it may be referred to as 'examination technique'. In their lessons, students also learnthe language style in which they are expected to writetheir answers. This style should be consistent, so thatstudents know what to expect in questions and whatexaminers expect in answers. Students may havedifficulties if these conventions are not followed.
This study focused on the language used inselected A-level biology examination papers produced by the Associated Examining Board (AEB) andthe Joint Matriculation Board (JMB). The aims wereto discover if both Boards present students withlanguage of the same difficulty; to see if the languageof the papers is consistent within sections of a paperand from year to year; and to see if students areconfident of the meaning of selected words used in Alevel biology examination papers.
206 Journol of Biological Educotion (1993) 27 (3)
Methods1. Student perception of word comprehensionTwenty words were selected for study drawn fromJMB A-level biology papers set in 1984, 1985 or 1986.The words were underlined and presented in theoriginal question context to 19 A-level biology students in the first year of their course (term 3). Students were asked to indicate their level of understand
ing using a four-point Likert Scale. Nine words wereselected because they appeared in the Cassels andJohnstone (1978) list of words (marked + in table 1).The further 11 words were chosen because they werethought to cause students difficulty, and were commonly encountered in A-level examination papers.
A disadvantage of this method is that studentsmay claim, either deliberately or mistakenly, tounderstand words with which they are not conversant. To circumvent this problem, students were alsoasked to indicate an alternative word or phrase thatcould have been used instead of the underlined word.
2. Readability formulae studyReadability formulae require cautious and judicioususe, not least in a study of this type. They give anindication of the age of an average student who couldunderstand the material, with an error of at least ± Iyear for the most valid and reliable tests. In this study,where the students were not of average ability, butsome of the most able in the age group, further care isrequired in application of the formulae and in theinterpretation of the data that they provide.
In selecting which formulae to use, this study wasguided by Lunzer and Gardner (1979). After closeconsideration of nine formulae, they chose to use theFlesch grade score because it correlates well withpooled teacher judgements and is quite easy to use. Inaddition, the tool is widely used in the literature andhas been applied in parallel studies to the current one(Williamson, 1986). Word passages were selected atrandom and the formula was applied but where thequestion style was inappropriate to the Flesch technique it was not employed, for example multiplechoice sections (JMB) and the short question sectionof the AEB paper 1.
Although readability formulae are imperfect tools,the results obtained from them are more reliable ifconfirmed by the results of other formulae, especiallyif they rely on different parameters in their computation. For this reason, another formula was also used.The Forcast formula was selected as it is valid withmaterial aimed at this age group, and can be usedwith text that is not written in proper sentences. Itcan, therefore, be used with those sections of thepapers which cannot be analysed using the Fleschformula.
Formulae rejected for this study included the Frygraph, Mugford, FOG and SMOG formulae. TheFry graph is not easily applied to short sentences witha large number of long words, or to long sentences
The readability of selected A-level biology examination papers Richardson and Lock
with relatively short words. Both of these sentencetypes occur in examination questions. The Mugfordformula is quite time-consuming to use, requiringfour lists of words to be compiled. The FOG andSMOG formulae both tend to give very high scoreson more difficult reading material, which can makeresults difficult to interpret. Both of these formulaeare easy to use but FOG does not correlate well withpooled teacher judgements, and SMOG has a greaterstandard error than other formulae.
Table 1 Do students think that they understand selected wordsfrom JMB A-level biology examination papers? (N= 19)
- indicates words with a combined C+ D score of less than 79.+ indicates words studied by Cassels and Johnstone (1978).
Level of student understanding- % of studentswho had:No Someidea ideaA B
Understood C+ DperfectlyD
A goodideaC
Principles 5323726 63-
Principal0262153 74-
Mobilized16163242 74-
Concluded0104247 89
Yielded1002163 84
Devise0103753 90
+Factors005347 100
+Valid1652653 79
+Contrast5102658 84
+Efficient5105826 84
Respectively10103742 79
Verify2152647 73-
+Hypothesis5323232 64-
Retard26163226 58-
+Concept0423721 58-
+Rate053758 95
Correlated21262626 52-
+Probability5163247 79
Comparable555832 90
+Effects055837 95
results do seem to suggest that a significant proportion of A-level students are not confident of themeanings of a number of words commonly used inJMB A-level biology examination questions. However, because students may think that they understand a word that they do not, or may be unsure of aword that they understand perfectly, they were alsoasked to suggest alternative words or phrases thatcould have been used for the 20 selected words. The
results have been tabulated (table 2) according to thestudents' stated level of understanding of the selectedword.
As would be expected, alternative words weremost frequently suggested when students claimed tounderstand words perfectly, and were never suggestedwhen students had 'no idea'. Usually, if studentssuggested an alternative when they indicated onlyhaving 'some idea' of a word's meaning it was broadlycorrect. For example, a student suggested that 'slowdown' could have been used instead of 'retard',although the student claimed to have only 'some idea'of the meaning of that word. In other cases, studentssuggested incorrect alternatives to words which theyclaimed to 'understand perfectly', although this occurred more rarely (seven times in total). For example, 'variable' was offered as an alternative to'comparable' by a student who claimed to understandthis word perfectly. Both of these circumstances couldlower examination performance .. Students 'understanding' a word incorrectly, or worrying about themeaning of a word (even though they understand it)are likely to make more errors.
1. Student perception of word comprehensionTable I shows the results of student understanding ofthe 20 selected words as used in the same context in
which they were employed in recent JMB A-levelbiology papers. From the table it can be seen that 11of the words were not well understood by 20 per centor more of the students tested; in other words, morethan 20 per cent of the students indicated that theyhad 'no idea', or 'some idea' of the meaning of thewords. In three cases over 20 per cent of the studentshad 'no idea' of the words' meaning. Very few of thewords were well understood by 90 per cent or more ofthe class, although it seems that these are the levels ofword comprehension that examination questionwriters should aim for.
This pilot survey was carried out using an opportunity sample-a single class of A-level studentsand therefore it may not be possible to generalizeusing these results. Most of the students were at theend of the first year of a two-year course and so theirlanguage comprehension may not have been at thelevel it would have reached by the time they sat theirexaminations. However, the words tested were nontechnical rather than technical, and are unlikely to bespecifically taught in lessons. These words are likelyto be already causing problems if past examinationquestions are used for classwork, homework andtests. Even with the reservations outlined above, these
Results and discussion
3. The Graeco-Latin instrument
The Graeco-Latin (GL) instrument (Corson, 1982)provides an alternative method of measuring textreadability. Corson has noted that the percent incidence of GL words seems to correlate with readingages of texts. This may be because GL words are oftenused to represent more abstract ideas than AngloSaxon words, and so their incidence gives an indication of the semantic complexity of texts. GL wordsmay also be used in texts, as they have a high statusand make writing appear more academic. For both ofthese reasons texts with a high incidence of GL wordsmay be less readable than texts with a low incidence.In order to determine the percent incidence of GLwords, random passages of 100 consecutive wordswere selected from JMB and AEB papers. In manycases the passages chosen were the same ones analysed using the readability formulae.
Journal of Biological Education (1993) 27 (3) 207
The readability of selected A-level biology examination papers Richardson and Lock
Table 2 Alternative words suggested by students to replace selected words in examination questions *(frequency of suggestion in brackets)
Word on
examination paperAlternative words suggested according to level of understanding of original wordB (Some idea) C (Good idea) D (Understands)
Principles
Principal
Mobilized
Concluded
Yielded
Devise
Factors
Valid
Contrast
Efficient
Respectively
Verify
Hypothesis
Retard
Concept
Rate
Correlated
Probability
Comparable
Effects
Main pointsMain objectivesFunctions
Main
Major (2)
Transported
Plan
Descri be
Compared to each other
Account for
Theories
Slow down
Stop
IdeaDifference
Related
Chance (2)
Different, but with certain links
Main points
Main
TransportedMoved aroundUsedSaidUnderstoodDeductedGave
PlanThink of
Conditions
Facts affectingWhat makes it upWhat it consists ofUseful
Differences (3)Differentiate
How well
ApproximatelyOne after another
TogetherProve (3)
Theories (3)ExplanationExamples
Slow down (2)StopReduceIdea
Meaning (3)Idea/theorySpeed (3)Amount
Related (2)
PossibilityLikelyLess frequentSimilar (4)
Changes
Main pointsBasisGeneral idea
Most important ideasBasic ideas behind
Main (4)*MajorChiefAbundant
Transported (3)Moved around (4)Made available to seed
Said (3)Determined (3)Found out
Produced (9)Made (2)Plan and designMake-up (3)Construct (3)Make/designCreate
Think-upPlan/make-upConditions (3)Points (2)
True (9)Correct
Differences (6)DifferentiateDissimulate
CompetentGood, well achieved
RelativelyOrder of words
Firstly 02' secondly glucose (3)Prove (8)Check
Theories (2)IdeasReasons
AssumptionSlow down (3)StopHinder
Idea (2)Meaning
SpeedPace (2)AmountTime taken
Amount of water per unit timeRelated (4)Connected
Chance (6)Likelihood
Similar (3)EquivalentVariable
ConsequenceWhat happensResults
What certain factors have on things
208 Journol of Biological Education (1993) 27 (3)
The readability of selected A-level biology examination papers Richardson and Lock
Students did not always suggest alternatives for allwords; sometimes it may be difficult to think of analternative. Students may have misunderstood thealternative rather than the word itself (e.g. 'deducted'was given as an alternative to 'concluded'). However,in general terms, it was reassuring that alternativewords suggested were consistent with the level ofunderstanding indicated. If anything, studentsseemed to underestimate their own level of under
standing, which may reflect a lack of confidence inusing this type of language.
2. Readability formulae studyThe readability formulae were employed to addressthree main questions concerning the variation withinand between papers of the same Board, the variationbetween papers of the same Board over a period oftime, and the variation between the Boards.
Three JMB examination papers (June 1983, June1985 and June 1987) and three AEB examinationpapers (June 1985, November 1985 and June 1987)were investigated and the data are presented in tables3 and 4 respectively. Data in table 3 show that the
Table 3 The reading ages of samples taken from 1MB A-level biology papers
Flesch formula
Forcast formula
Paper
QuestionNumber ofW ords/ReadingOne-syllableReadingnumber
syllablessentenceeasewordsage
June /983 lA
4182 110/530.58216.8lA
2163 109/753.19115.9
IB (A)
3185 106/632.48017.0
IB(C)
4159 119/755.19215.8
IB (F)
5158 113/654.18716.3IIA
4-6-- 7717.3IIA
16-20-- 7617.4IIA
31-34 8816.2lIB
2-3162106/754.28716.3lIB
5~7160121/753.99315.71983 mean
47.616.5
1983 SO10.30.6
June /985lA
3d177 109/638.68116.9
lA
5153 110/658.89115.9
IB (A)
3178 122/531.58516.5
IB(C)
4176 108/639.79515.5
IB (E)
I146 121/765.810214.8
IB (F)
4-5167105/750.39115.9IIA
6-7 --8716.3IIA
32-34 -9615.4
IIA
37-38 7717.3lIB
2-3156116/1063.19715.3
lIB
4-5163107/753.49215.8
1985 mean
50.216.0
1985 SO
11.70.7
June /987lA
2162 109/855.99016.0lA
6179 122/737.78716.3
IB (A)
5157 113/1062.594/14815.5
IB(C)
I164 105/650.69715.3
IB (F)
2-4189102/935.48216.8IIA
4-5 9615.4
IIA
14-17 9315.7IIA
32-33 8216.8
lIB
1-3164105/752.98516.5lIB
4-6170109/849.28616.41987 mean
49.216.11987 SO
8.90.6
Overall mean
49.016.2Overall SO
10.70.7
Journal of Biological Education (1993) 27 (3)
209
The readability of selected A-level biology examination papers Richardson and Lock
Table 4
The reading ages of samples taken from AEB A-level biology papers
Flesch formula
Forcast formula
Paper
QuestionNumber ofWords/ReadingOne-syllableReadingnumber
syllablessentenceeasewordsage
June 1985 I]--4 --8816.2
I8-9 -9016.0
22141 107/67010015.0
251153 108/659103]4.7
35141 107/566108]4.2
34166 114/851.911213.8
1985 mean61.715.0
] 985 SO6.90.9
November 1985I
4-7 10414.6I
1{}-12 9615.42
I]52 131/75510314.72
2167 108/7509615.42
311175120/8458516.53
4-5185110/52884]6.63
5-7156102/657.69715.31985 mean
47.115.51985 SO
10.50.7
June 1987I
1-3 9815.2I
]{}-] 1 8416.6I
17-18 9415.6
2 comp.2182 100/635.98516.5
2]-3172103/949.79115.9
2 data4]39 105/567.9102]4.8
]987 mean51.2]5.8
1987 SO]3.10.7
Overall mean
53.0]5.4Overall SO
12.10.8
reading ages obtained using the Forcast formularanged from 14.8 to 17.4 years. The Reading EaseScores varied from 30.5 to 65.8 which can be converted to 18 to 21 and 13 to 14 years respectively.These data seem to confirm the idea that considerablevariation can occur within sections of examinationpapers. The data also confirm that the reading age ofsame samples is appropriate for independent readingby students. It is also seen that the two formulae canpredict different reading ages for the same piece oftext.
Similar features are shown by the results obtainedby analysis of samples taken from AEB examinationpapers (table 4). A wider range of reading ages wasobtained using the Flesch formula from graduate to13 to 14 years, while a similar spread of values wasobtained using the Forcast formula. However, theseresults show a lower range of reading ages, using theForcast formula, than the results obtained from 1MBpapers.
When the data in tables 3 and 4 are inspected toinvestigate whether differences in reading age arefound between papers of the same Board from different years, it is seen that a good degree of consist-
21 0 Journal of Biological Education (1993) 27 (3)
ency exists. It is important that the reading age ofpapers remains steady so that candidates know whatto expect. However, language variation within andbetween papers may reflect differences in the conceptsbeing examined in different sections, or papers oryears.
The overall means were computed by averaging allthe data from all questions investigated, and are usedto give some impression of the overall readability of1MB and AEB papers. These data suggest that 1MBpapers have a higher reading age than AEB papers.These differences in readability were significant at the5 per cent level for the Forcast formula (standarderror of difference, z = 3.36, p < 0.05) but not for theFlesch reading ease score (z= - 0.97, p> 0.05).
3. The Graeco-Latin instrumentThe results from this approach are presented in table5. They show a wide variation in the incidence ofGraeco-Latin words in the parts of the examinationpapers sampled. Among the AEB samples the incidence varied from 18 to 44 per cent but there wasrather less variation among the 1MB samples (from25 to 43 per cent). The standard deviation of the 1MB
Table 5 The incidence of Graeco-Latin words in passages selectedfrom AEB and JMB examination papers
The readability of selected A-level biology examination papers Richardson and Lock
incidence of Graeco-Latin words among text samplesselected from AEB and JMB examination papers.7. The results indicate that the language used onJMB papers is more consistent than on those produced by the AEB.
Summary
The sample of students used in this study was smalland this may limit a generalization of the findings.However, there are seven main points that haveemerged from this study.
samples was less than that of the AEB samples, whichmay suggest that the language used in JMB papers ismore uniform than that used in AEB papers. However, it may also reflect a greater variety of questionstyles used on AEB papers. The mean incidence ofGraeco-Latin words was broadly similar for the twoBoards and not significantly different.
1. A significant proportion of the sample of studentsused in this study are not confident of the meaning ofa number of words commonly used in JMB A-levelbiology examination papers.2. Students in this study tend to underestimate theirlevel of understanding of words used in A-level examination papers.3. Considerable variation in readability occurs withinsections of AEB and JMB examination papers.4. A good degree of consistency exists in the readingages of papers of the same Board from different years.5. JMB papers may be more difficult to read thanthose produced by the AEB.6. There is quite a wide variation in the percent
Board
AEBAEBAEBAEBAEBAEBAEBAEBAEBAEB
JMB~B~B~B~B~B~B~B~B~B
DateNovember 1985
June 1983June] 985June] 985June 1985November 1985November 1985November 1985June ]987June 1987June 1987
June 1982June 1978June 1985June 1985June 1985June 1985June 1987June 1987June 1987June 1987
Paper Question
2 511 1-22 53 5\ 4-62 3-43 41 12 12 4
MeanStandarddeviation
IIB 8IIB 1lA 3DIB 3
lIA 32-34lIB 4-5lA 6IB A5
IIA 32-33lIB 5-7
MeanStandarddeviation
Incidence ofGraecD-Latinwords %
313919282639413644\8
32.1
8.7
323440352525
4038434035.\
6.0
Implications
Biology teachers need to be aware of the words inexamination questions which may be problematic totheir students. Key terms could be explicitly taughtand students could be encouraged to keep a list of themeanings of the terms for reference. It may be usefulto have an English language dictionary available inthe biology laboratory. When choosing an A-levelExamining Board, it may be useful for teachers toconsider how different Boards make different language demands on candidates. Teachers usually takethe syllabus content and assessment scheme intoaccount when choosing an Examining Board, butlanguage levels are an added factor to consider.Teachers could administer readability tests on examination papers from a shortlist of Boards beforemaking their final decision.
The Examining Boards could reduce the numberof synonyms to be taught if they published a list ofwords with which they expected students to be familiar. Alternatively, they could publish lists of termsthat would not be required. The lists could be revisedperiodically, to prevent them from being too restrictive. Boards could reduce the use of technical terms in
questions, and could place common names or explanations in parentheses if necessary. Where possible,Anglo-Saxon words should be used in preference toGreek or Latin derived words. Examining Boardscould formalize procedures for monitoring the readability of the examination papers that they set, perhapsin a similar manner to the trialling that they carry outon multiple-choice questions. If this procedure couldbe agreed by the various Boards, the results could bepublished and used comparatively by teachers.
Boards could test the linguistic abilities of candidates by setting comprehension and essay questions.Otherwise, they should ensure that the language oftheir examinations communicates with the candidates
as clearly as possible.
AcknowledgementWe would like to thank Tessa Carrick who was involvedin the early stages of this work.
References
Barnes, D. (1969) Language, the learner and school.London: Penguin.
Cassels, J. and Johnstone, A. (1978) The understanding ofnon-technical words in science. London: The ChemicalSociety Education Division.
Corson, D. J. (1982) The Graeco-Latin instrument: a new
Journal of Biological Education (1993) 27 (3) 211
The readability of selected A-level biology examination papers Richardson and Lock
measure of semantic complexity in oral and writtenEnglish. Language and Speech, 25(1), 1-10.
Evans, J. D. (1973) Towards a theory of technicalcommunication. School Science Review, 55(191),233-241.
Johnstone, A. and Cassels, J. (1978) What's in a word?New Scientist, 78, 432-434.
Lunzer, E. and Gardner, K. eds. (1979) The effective use ofreading. London: Heinemann.
Merzyn, G. (1987) The language of school science.JllIernational Journal of Science Education, 9(4),483-489.
Mobley, M. (1987) Evaluating curriculum materials: unit 2,readability. York: Longman.
Otterburn, M. K. and Nicholson, A. R. (1976) The
language of CSE mathematics. Mathematics in Schools,5(5), 18-20.
Threadgold, R. (1982) The problem of register in selectedCSE examinations across the curriculum. Reading,16(3),169-179.
Williamson, J. (1986) CSE; an examination of reading.Reading, 20(2), 111-l20.
The authorsJane Richardson is a Science Lecturer at the Bournville
College of Further Education, Bristol Road South,Northfield, Birmingham B3I 2AJ. Roger Lock is a Lecturerin Science Education at the School of Education, Universityof Birmingham, Edgbaston, Birmingham BI52TT.
BIOLOGICAL NOMENCLA TURE* 'I comnwnd the In:-.titute of BJOlogy for thii'
initiatin~ which :-ihould han> a significant im
pact on the e~tablishnwl1t of a slandardist'dnomenclature in Colleges and Schools.'
.J.R. ~lerchant
Director. Council Polit.', andA.dministration. SERl'
* 'Any authoritatiH' attl'mpt to rationalise scientific material which Jl:'nds ihelf to confusion or
contention is to be welcomed and this publica
tion is particularl .••useful in addn>ssing aspectsof biolog~· which remain ·grey areas· to morepeoplt· than would can" to admit it~·
P.E.O. \\\ml'l'Co-ordinator: :\ational Centre for
School Biotechnology
* '~lany childn>n find learning science hardenough without the added hurden of confusioncaused b~' non·standardi~ed nomenclature andsymbols. It seems to me essential that standardisation be introdul't'd, It may mean thatcertain schools or teachers ma~' have to changethe habits of a lifetime, but morl' likely Isuspect it will bring order to what has bl>en arather haphazard and 81(Jpp~' system in tht'past. I am sure that. if followed. thl:' rt't'ommt'n·dations will do much to ht'lp avoid unnecessary
ambiguity'..J. Wilkinson
Science Correspondent. BBC
* 'At a time when we are preparing to introduceXational Curriculum Science into our Schools I
welcome this initiative h:,>' the Institute ofBiolog:,>' and the Association for Science Education to produce recommendations on tht:'nomenclaturt:'. units and symbols commonly
encountt:'red in biological education in schoolsand collt:'ges, I am sure that this publicationwill be useful for teachers and pupils.'
Rt Hun Kenneth Baker .M1;.
The former Secretary of State forF..ducation and Science
* 'Science ha~ it~ o\\"n language and it is essentialto learn and use that language in order tocommunicate sensibl .••.and accurately, :\owhereis this trUl'r than in Biolo~{.v and in the rn'risenaming of animals and plants, Thl' Institute ofBiology's new re('ommendation:, are clear andas simple as pos:'.ible: they will p"o\'e \'aluableto student:-i and staff alike"
Sir (;eorge Porter.President. The Ro .••.al Society
* 'In rapidly ad\'ancing .'-;('ience,,,;, like biology. a
proliferation of technical terms and conventional s~'mbol:-i is almost inevitabl",. An .••.thing that
bring:-; uni!()I'mity to their use and st .••.ling. andwhich t'liminates redundant. inaccurate or out·
moded variants is greatl .••.tn bl:' welcomed. And
that is just \\'hat 'thi:; booklet does:Sir DfI\'id Attenborough. CBE
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21 2 Journal of Biological Education (1993) 27 (3)