|
2005 |
|
Temenoujka
Fuller A Map of
Students' Learning Demand and Learning Orientations |
The goal of this study
is to present the dependence of students' learning demand and students'
personal learning preferences. To achieve this goal, 51 community college
students with low achievement of placement test were surveyed by the Learning
Orientation Questionnaire developed by
|
|
Scores |
Range |
Number of students |
% |
Community College Group |
Universities Group |
|
|
|
7 - 5.6 |
Transforming |
2 |
4% |
4% |
20% |
Transforming |
|
|
5.5 - 5.01 |
Hi Performing |
16 |
31% |
61% |
70% |
Performing |
|
|
5.0 - 4.51 |
Lo Performing |
15 |
29% |
35% |
10% |
Conforming |
|
|
4.5 - 4.01 |
Hi Conforming |
10 |
20% |
|
|
|
|
|
4.0 - 3.51 |
Lo Conforming |
8 |
16% |
|
|
|
|
|
3.5- 0 |
Resistant |
0 |
0% |
|
||
|
|
|
|
51 |
100% |
|
||
Table 1: Fifty-one community college
students with almost the same results on standardized placement tests have
different Learning Orientations (Copyright © 1997-2001, Margaret Martinez).
The community
college sample has 25% more conforming students compare with the University
students [2]. The average for University students is 16% higher in the
direction of transforming students.
The vertical
coordinate (OY) on Fig. 1 represents the difference between student's learning
orientation score and the average for the group (learning orientation variances).
The learning orientation value is positive if the student's score is above the average,
and the learning orientations appear as negative if the individual score is
under the average for the group.
The learning demand is a two dimensional coordinate (Fuller, Abram, and Dishlieva, 2001), measured by the
day of visit (OX) and the total time of visit (OZ). All students, selected
for the study, were enrolled into at least one reading, writing or/and
mathematics developmental classes for which tutoring and learning cervices were
provided at the learning center. The students' visits at the learning center
were traced during the first seven weeks of the spring semester in 2003. The
days in the semester are the only time-variable which is different from part I
of this study, in which the day and time of the visits is presented on each
learning demand distribution. The reason that the time in the day is not
presented is that the figure would be four dimensional. The learning demand for
each individual student is presented on the third axis (OZ) which is
perpendicular to the page.
Students'
learning demand is also divided in two layers for better visualization. Above
the "see level" with different yellow colors are presented areas
where the learning demand is more than one hour; in the blue areas, the
learning demand is less than one hour. The map is designed to follow the ups
and downs of students' learning demand as it depends on the time and students'
personalities. The yellow areas are so called peaks in learning demand. It this
peak hour the learning center is overloaded. It is interesting than the yellow
areas become absolutely solid during the midterm at the end of the period of
observation.
Students with Learning Orientations below the average (negative OY values) are
more active at the end of the semester compare with the students with learning
orientation scores above the average (positive OY values). The pick in
so-called conforming students (highest negative score for Learning Orientation)
is the "Mountain" area circled and labeled as "Fear of
Failure". Not only that dependent students need more tutoring and learning
services, but also they are motivated by fear and learning anxiety. To avoid
fear, educators need to break the actions leading to fear - procrastination,
late visit of the learning facilities. At the same time, students with more
global and transformable behavior use the learning facilities on time. The
important finding of this study is that transforming students do not need
supervision - they are ready for independent study. The second finding is that conforming
students need guidance and supervision. The key discovery is that we can not
guide and supervise students the same way.
The study provides research
questions about learning orientations and tutoring:
Do the students with Learning Orientation
above the average with more than one standard deviation have natural hope of success
guide?
·
Are transforming students naturally more active at the
beginning of the semester compare to the performing students?
·
Will transforming students benefit from help oriented
towards their personal strategic planning?
·
Do they need to help with the global picture or challenge
with the detail of different elements of the learning task?
Further,
students with Learning Orientation under the average but above the lowers
scores for the group have the most solid learning demand during the semester.
It is interesting that they have peak on the area of the midterm. These
students will benefit the most from learning services outside of the classroom.
One additional advantage of addressing the second quartile group is that they
are majority (64% about the average). According to
- Do the performing students benefit the most from learning
services with more common sense examples, allowing them to try problems on
the tutoring white board with very little help when needed?
- Do the performing students benefit more than the rest
of the students from well defined negotiable objectives?
- What would be the best method for using technology with
performing students?
Finally, the
conforming students are no more than 20% to 30% of our study; however, they are
the most difficult customers for the learning center. The research questions
for performing students, emerging from the study are:
- How to address in the most constructive and
optimistic manner students' actions leading to fear of failure;
- How to utilize the natural attempt of performing
students to get help at the last minute, by helping them in the last
minutes and planning for the future?
- The limitations of this study have different
character. First of all, the students in this study were with almost mono-cognitive
profile (30 to 40 percent at placement tests), which should not be generalized
for the population of all students enrolled in developmental classes. The
role of tutors' expertise and tutors' ability are not discussed in this
paper, but they are a significant part of a larger project.
The
usage of an online tutorial during the researched period was traced for a
subgroup of 9 subjects. The last research is not statistically reliable;
however, the observations confirm the results presented in Johns and
Case Studies
Only two cases with absolutely low scores on Learning Orientation Questionnaire
were observed. According to the classification developed by
S_1, one of the
resistant students in the study, performed close to 100% in developmental math
class, while the second student was suffering all the way through the community
college classes. However, both students were enthusiastic learners. In a new learning
paradigm, the educational system may consider those two students high level
learners. Both students are willing to invest time to learn; however, their
experience with the traditional school system is often negative. Why? The
answer to this question is complex and exceeded the scope of this study;
however, the luck of interest for students as individuals is one of the reasons
for this learning paradox. The best learners are not well situated into the
system with teaching theory-of-use, or old teaching paradigm. Technology is not
a solo solution for those students. The use of technology is more like a connection
between dependent-independent divide of students' learning demand. Two forms of
learning cervices are needed to address all difference of students' learning
demand - fine touch of personal or small group tutoring, and high tech used as
a tool to free students from the need to follow particular learning path and to
address students' learning independence and a self-directed learning will of
all individuals.
Fig. 1 A map of students' learning orientations measured by
a LO survey (
At the beginning of
the semester, learning demand is considered active. Students' learning demand
When the students
are under the pressure of the midterm (day 40 in the seventh week of Fig. 1) is
considered passive or dependent learning demand. Therefore, the first part of
the semester is divided in two periods due to the character of the learning
demand. There are clear patterns of passive-active preferences at the top and
bottom part of the map. Students with higher scores on Learning Orientation
Questionnaire are active, while those with lowest scores are more passive. The
students with scores between these two groups have almost equally distributed
learning demand throughout the entire period of observation. However,
most of the students are in the middle area (plus or minus one standard
deviation from the mean). Students with learning orientations in the intermediate
area are the majority of students using the learning center. The
"group" of intermediate students in terms of learning orientations is
well supported by the learning center and probably those are the "beneficiary"
students in the system of old teaching paradigm. One important question is: How
students who like semi-structured material will be affected in the new
paradigm? The results of this study lead the researcher to a conclusion, that
teachers in the old paradigm have developed intuitively successful method for the
majority of the students.
The theory-in-use for the school system today is that teaching produces
learning. The paradox is that we do not question this as far as students' grade
fits the bell-curve and the teacher is accepted by the students. As educators,
we need to openly and honestly ask a simple question: What are the problems
with our teaching theory-in-use in the time of changing of learning paradigm?
To address this question, a workshop on learning with technologies was
developed and implemented by Fuller (2005). The workshop is guided by the
discoveries of the most productive in asking and answering tough
questions science, the science of modern physics. Modern Physics is not a
subject in any school, usually modern physics is an appendix or, in some cases
is a section or two at the end of the textbook. Teachers often do some
supplements to illuminate some ideas (Fuller and Krumova,
2004), but mostly physics curriculum is focused on classical physics. One
reason to use the discoveries of modern physics as a model is the fact that modern
physics is that modern physics is most productive science in using technology
and developing technologies to learn. Stated in terms of Argyris
(1982), modern physics is a model for high level learning; in the high level
learning or double loop learning, the theory-in-use is questioned and tested
publicly. Questioning the tacit routines is the key to moving from teaching for
Industrial Era to learning for Information Era.
References
Argyris, C. (1982). Reasoning,
Learning, and Action: Individual and Organizational.
Fuller, T. V. (2005). A
Workshop on Learning, Technology, and Modern Physics. Retrieved
November 12, 2005, from http://pine.ucc.nau.edu/tvf2/.
Fuller, T., Abram, M., & Dishlieva, K. (2001, August 17).
Fuller, T., &
Krumova, G. (2004). Online Reading
Supplements for Atomic and Nuclear Physics Chapters of a General Chemistry
Course. In Proceedings of the Scientific Conference with International
Participation, Technical
(ISSN 1311-896X ed., pp. 653-662)
Leach, J., & Scott, P. (2002).
Designing and Evaluating Science Teaching Sequencing: An Approach
Drawing upon the Concept of
Learning Demand and a Social Constructivist Perspective on Learning. Studies in
Science Education, 38, 115-142.