Many undergraduate engineering students perform relatively poorly in design courses, even though they are otherwise academically very strong. Some average students perform exceptionally well in design courses. While there are generally strong correlations between the results that each student gains at university, the design outcomes seem somewhat anomalous. It is hypothesized that some of the variation in relative success at design courses is due to the influence of otherwise unused and unmeasured nonacademic attributes. One clue to the existence of additional attributes exploited in design courses arises from an appreciation of “hemispheric preference,” since many of the special tasks in design projects rely on creativity, holistic problem solving, visualization, and intuition; skills normally associated with the brain’s right hemisphere. Students in the second year of the engineering program at Monash University were tested for spatial skill, and completed a management survey that identified their willingness to use intuition during problem solving. Separately, their grades in a series of mathematics and computing courses were obtained, and the set of results was grouped in a multiple regression against their engineering design grades. Whereas the correlation coefficients for the students’ paired grades in several mathematics and other analytical courses were all high, the correlation coefficient between mathematics and their grade in engineering design was weak, but significant. However, when measures of their spatial skills and their willingness to use intuition were factored with their mathematics grade, the composite score was highly correlated with a student’s design grade. It was concluded that while general academic competence was of prime importance, a student’s spatial skill and their comfort in making assumptions were important factors in predicting their design grade.

1.
Field
,
B. W.
, 1993, “
Do Engineering Courses Suppress Creativity
?”
Proceedings 5th Annual Convention and Conference
, AaeE, Auckland, N.Z., Dec. 12–15, p.
536
.
2.
Wilde
,
D. J.
, 1993, “
Faculty Workshops on Teaching Engineering Design Creativity
,”
Proceedings Int. Conference on Engineering Design (ICED’93)
, The Hague, Aug. 17–19, pp.
1776
1783
.
3.
Churches
,
A.
, and
Magin
,
D.
, 2005, “
Student Design and Build Projects Revisited
,”
Proceedings International Conference on Engineering Design (ICED’05)
, Melbourne, Australia, Aug. 15–18, Paper No. 128.61.
4.
Field
,
B. W.
, 1993, “
Learning Economical Manufacturing Methods and Reducing Mental Set Using Value Analysis in a PBL Environment
,”
AEESEAP Jnl. of Engineering Education
,
23
(
1
), pp.
34
40
.
5.
Kuhnell
,
B. T.
, 1992, “
Development of a Mentor Teaching Program
,”
Proceedings 3rd World Congress on Engineering Education
, Portsmouth, UK, Aug. 19–21, pp.
211
216
.
6.
Field
,
B. W.
, 1997, “
The Australian/New Zealand Warman Design Competition
,”
Proceedings International Conference on Engineering Design (ICED’97)
, Tampere, Finland, pp.
419
422
.
8.
Samuel
,
A. E.
, 2006,
Make and Test Projects in Engineering Design
,
Springer
, London, UK.
9.
Weir
,
J. G.
,
Lewis
,
W. P.
,
Burvill
,
C. A.
, and
Field
,
B. W.
, 2005, “
A Quantitative Study of Ideation, Visualisation and Graphical Skills in Engineering Design
,”
Proceedings Int. Conf. on Engineering Design (ICED’05)
, Melbourne, Australia, Aug. 15–18, Paper No. 553.61.
10.
Jacobs
,
B.
, and
Brown
,
T.
, 2004, “
Addressing Inequities in Engineering Sketching Skills
,”
Proceedings 15th AaeE Annual Convention and Conference
, Toowoomba, Australia, Sept. 27–29.
11.
Field
,
B. W.
, 1986, “
Teaching Design Methods to First Year Engineering Students
,”
Proceedings Conference on Teaching Engineering Designers for the 21st century
,
U.N.S.W.
, Sydney, Australia, Feb. 5–6.
13.
Bogen
,
J. E.
, 1975, “
Some Educational Aspects of Hemispheric Specialization
,”
UCLA Educator
,
17
, pp.
24
32
.
14.
Kolb
,
D. A.
, 1984,
Experiential Learning: Experience as the Source of Learning and Development
,
Prentice Hall
, Boston, MA.
15.
Kolb
,
D. A.
, 1985,
The Learning Style Inventory: Self-Scoring Test and Interpretation Booklet
,
McBer and Co
, Boston, MA.
16.
Honey
,
P.
, and
Mumford
,
A.
, 1986,
The Manual of Learning Styles
,
Peter Honey
, Berkshire, UK.
17.
McCarthy
,
B.
, 1986,
Hemispheric Mode Indicator
,
About Learning Inc
, Wauconda, IL.
18.
Lumsdaine
,
M.
, and
Lumsdaine
,
E.
, 1995, “
Thinking Preferences of Engineering Students: Implications for Curriculum Restructuring
,”
J. Eng. Educ.
1069-4730,
84
(
2
), pp.
193
204
.
19.
Kvan
,
T.
, and
Yunyan
,
J.
, 2005, “
Students’ Learning Styles and Their Correlation with Performance in Architectural Design Studio
,”
Des. Stud.
0142-694X,
26
(
1
), pp.
19
34
.
20.
Templeton
,
M.
, 2003, “
Left vs. Right: Which Side Are You On?
http://www.mtsu.edu/~studskli/hd/LRBrain.htmlhttp://www.mtsu.edu/~studskli/hd/LRBrain.html
21.
Edwards
,
B.
, 1993,
Drawing on the Right Side of the Brain
,”
Hammersmith
, London, UK.
23.
McCarthy
,
B.
, 1997, “
A Tale of Four Learners
,”
Educational Leadership
,
54
(
6
), pp.
46
51
.
24.
Torrance
,
E. P.
,
Taggart
,
W. W.
, and
Taggart
,
B.
, 1984,
Human Information Processing Survey
,”
Scholastic Testing Service Inc.
, Bennensville, IL.
25.
Briggs
,
K. C.
, and
Briggs Myers
,
I.
, 1976,
Myers Briggs Type Indicator Form F
,
Consulting Psychologists Press
, Palo Alto, CA.
26.
Herrmann
,
N.
, 1988,
The Creative Brain
,
The Ned Herrmann Group
, Lake Lure, NC.
27.
Magin
,
D.
, and
Churches
,
A.
, 1996, “
Gender Differences in Spatial Abilities of Entering First Year Students: What Should be Done?
Proceedings 8th AaeE Annual Convention and Conference
, Sydney, Australia, Dec. 15–18, pp.
95
99
.
28.
Field
,
B. W.
, 2006, “
Hemispheric Skills for Undergraduate Engineering Design
,”
Proceedings 3rd Symposium on International Design and Design Education
, Philadelphia, PA, Sept. 10–13, Paper No. DETC2006–99333.
29.
Field
,
B. W.
,
Burvill
,
C. A.
, and
Weir
,
J. G.
, 2005, “
The Impact of Spatial Abilities on the Comprehension of Design Drawings
,”
Proceedings International Conference on Engineering Design (ICED’05)
, Melbourne, Australia, Aug. 15–18, Paper No. 531.61.
30.
Field
,
B. W.
, 1993, “
The Influence of Course Content in the Development of Intuitive Design Skill
,”
Proceedings 5th Annual Convention and Conference AaeE
, Christchurch, N.Z., Aug. 17–21, p.
619
.
31.
Vandenberg
,
S. G.
, and
Kuese
,
A. R.
, 1978, “
Mental Rotations, A Group Test of Three Dimensional Spatial Visualization
,”
Percept. Mot. Skills
0031-5125,
47
, pp.
599
604
.
32.
CEEB
, 1939, “
Special Aptitude Test in Spatial Relations
,” College Entrance Examination Board, New York, NY.
33.
Guay
,
R. B.
, 1977, “
Purdue Spatial Visualization Test: Rotations
,” Purdue Research Foundation, West Lafayette, IN.
34.
Bennett
,
G. K.
,
Seashore
,
H. G.
, and
Westman
,
A. G.
, 1973, “
Differential Aptitude Tests, Forms S and T
,” The Psychological Corporation, NY.
35.
Thurstone
,
L. L.
, and
Thurstone
,
T. G
, 1950, “
The Primary Mental Abilities Test
,” Sci. Res. Assoc., Chicago, IL.
36.
International Society for Geometry and Graphics
, http://www.isgg.nethttp://www.isgg.net
37.
Churches
,
A. E.
,
Magin
,
D. J.
, and
Barratt
,
A. J.
, 1994, “
Reliability and Stability of Two Tests of Spatial Abilities
,”
Proceedings 6th ICECGDG
, Tokyo, Japan, Aug. 19–23, pp.
801
805
.
38.
Sorby
,
S. A.
, and
Baartmans
,
B. J.
, 2000, “
The Development and Assessment of a Course for Enhancing the 3-D Spatial Visualization Skills of First Year Engineering Students
,”
J. Eng. Educ.
1069-4730,
89
(
3
), pp.
301
307
.
39.
Agor
,
W. H.
, 1986,
The Logic of Intuitive Decision Making
,
Greenwood Press
, Westport, CT.
40.
Bourke
,
L. A.
, and
Miller
,
L. K.
, 1999, “
Taking the Mystery Out of Intuitive Decision Making
,”
Acad. Manag. Exec.
,
13
, pp.
91
99
.
41.
Leybourne
,
S.
, and
Sadler-Smith
,
E.
, 2006, “
The Role of Intuition and Improvisation in Project Management
,”
Int. J. Proj. Manage.
0263-7863,
24
, pp.
483
492
.
42.
Jabri
,
M. M.
, 1991, “
The Development of Conceptually Independent Subscales in the Measurement of Modes of Problem Solving
,”
Educ. Psychol. Meas.
0013-1644,
51
, pp.
975
983
.
43.
Freeston
,
M. H.
,
Rheaume
,
J.
,
Letarte
,
H.
,
Dugas
,
M. J.
, and
Ladouceur
,
R.
, 1994, “
Why do People Worry?
Pers. Individ. Differ.
0191-8869,
17
(
6
), pp.
791
802
.
44.
Hofstede
,
G.
, 2001,
Culture’s Consequences: Comparing Values, Behaviors, Institutions and Organizations Across Nations
,
Sage Publications
, Thousand Oaks, CA.
45.
Field
,
B. W.
, 1993, “
Tests for Measuring Intuitive Design Skill
,”
Aust. J. Eng. Educ.
1324-5821,
4
(
2
), pp.
179
189
.
46.
Field
,
B. W.
, 1997, “
The Development of Intuitive Design Skills in Engineering Undergraduates
,”
Proceedings International Conference on Engineering Design (ICED’97)
, Tampere, Finland, Aug. 19–21, pp.
3/415
418
.
47.
Field
,
B. W.
, 1995, “
Measuring Intuitive Engineering Design Skills
,”
Proceedings World Conference on Engineering Education
, Minneapolis, MN, Oct. 15–20, Vol.
4
, pp.
221
226
.
48.
Robbins
,
S.
,
Bergman
,
R.
,
Stagg
,
I.
, and
Coulter
,
M.
, 1995,
Management
, 3rd ed.,
Prentice–Hall
, Sydney, Australia.
50.
Field
,
B. W.
, 1999, “
A Course in Spatial Visualisation
,”
J. Geometry and Graphics
,
3
(
2
), pp.
201
209
.
51.
Suzuki
,
K.
,
Wakita
,
S.
, and
Nagano
,
S.
, 1990, “
Improvement of Spatial Problem Solving Ability Through Graphics Education
,”
J. Graphic Sci.
,
49
, pp.
21
28
.
52.
Suzuki
,
K.
,
Shiina
,
K.
,
Makino
,
K.
,
Saito
,
T.
,
Jingu
,
T.
,
Tsutsuma
,
N.
,
Kashima
,
S.
,
Shibata
,
M.
,
Maki
,
H.
,
Tsutsumi
,
E.
, and
Isoda
,
H.
, 1992, “
Evaluation of Students’ Spatial Abilities by a Mental Cutting Test
,”
Proceedings 5th ICECGDG
, Melbourne, Australia, 1992, pp.
277
281
.
53.
Saito
,
T.
,
Suzuki
,
K.
, and
Jingu
,
T.
, 1998, “
Relations Between Spatial Ability Evaluated by a Mental Cutting Test and Engineering Graphics Education
,”
Proceedings 8th ICECGGDG
, Ausitn, TX, July 31–Aug. 3, pp.
231
235
.
54.
Crown
,
S. J.
, 2001, “
Improving Visualization Skill of Engineering Graphics Students Using Simple JavaScript Web Based Games
,”
J. Eng. Educ.
1069-4730,
90
(
3
), pp.
347
355
.
55.
Samuel
,
A. E.
, and
Weir
,
J. A.
, 1999,
Introduction to Engineering Design
,
Butterworth Heinemann
, Oxford, UK, p.
15
.
You do not currently have access to this content.