Introduction
No one can deny that advances in information technology coupled with the changes in society are creating new paradigms for education and training. These changes will affect our education and training systems. Participants in this educational and training paradigm require rich learning environment supported by well-designed resources (Khan, 1997). Therefore, there is a great demand for affordable, efficient, easily accessible, open, flexible, learner- centered and facilitated learning environment. One of the approaches which reflects the principles of learner- centeredness is Problem–Based Learning (PBL).The theoretical foundation of Problem-based learning is strongly grounded on constructivism. In this regard, Railsback (2002: 6) maintains that “Problem-based instruction strategies have their roots in the constructivist approach”. Moreover, PBL borrows its principles from pragmatic constructivism, cognitive constructivism and social constructivism, which constitute the main stands of the constructivist learning theory. In other terms, it commonly includes the ideas of Dewey’s philosophy, Piaget’s cognitive theory, and Vygotsky’s social constructivist theory.
I believe that since PBL is potentially Motivating, empowering and challenging to learners, it usually results in building learners’ confidence, self-esteem, and autonomy as well as improving students’ language skills, content learning, and cognitive abilities, so learning becomes fruitful for learners because they exhibit their abilities to plan, manage, and accomplish projects through their content knowledge and skills ” Problem -based learning is an instructional method centered on the learner as assured by (Erdem, 2012; Harris & Katz, 2001)”. Instead of using a rigid lesson plan that directs a learner down a specific path of learning outcomes or objectives, project-based learning allows in-depth investigation of a topic. “Problem-based learning is a comprehensive approach to classroom teaching and learning that is designed to engage students in investigation of complex, authentic problems and carefully designed products and tasks (Blumenfeld, et al. 1991; Demirhan, 2002).
Problem-based learning (PBL) is still in the developmental stage. There is not sufficient research or empirical data to be able to state with certainty that problem-based learning is a proven alternative to other forms of learning, especially in the Arab countries. Based on evidence gathered over the past years, problem-based learning appears to be an effective model for producing gains in academic achievement. However, only a few of them have focused on problem-based learning in Electrical Engineering. Analogue electronic components and circuits are building blocks for any electronic device used in industries or in daily life. It is therefore necessary for electronics engineers to understand clearly the principles and functioning of the basic analogue components and circuits. This course will enable the students to understand the basics of construction, working, and applications of various types of electronic components such as Diodes, BJT, JFET, MOSJFET and circuits such as Small Signal amplifier, oscillators, power amplifiers, operational amplifier, and timers using linear ICs. Practical exercises of this course would enable students to maintain such circuits and in turn maintain equipment having such circuits. This course is therefore one of the basic core courses which is a must for every electronic engineer and hence should be taken very sincerely by students.
The need for this study arises from three main things: the personal experience of the researcher in teaching field, the literature review on problem-based approach and the roles of the teacher and real needs of teachers of Electronics. First, the researcher noticed that students’ achievement level in Electronics courses is decreasing as they practice learning Electronics almost only inside the class or to study for the exams. As a result, the researcher tried to find a useful strategy to facilitate learning Electronics. Second, having reviewed the current literature, the researcher has figured out that the field of Electronics teaching and learning is poor in studies concerning the roles of the teacher and learners in light of the problem-based learning approach to teaching Electronics in Arab countries. Third, the unexpected low rate of success in these courses is a problem which deserves to be studied.
Eagly and Chaiken (1993) define attitude as “a psychological tendency that is expressed by evaluating a particular entity with some degree of favor or disfavor”. In problem-based learning (PBL) activities, students work in a group to solve challenging problems which are authentic; students create an end product through intellectual inquiry and involving meaningful tasks. Moreover, because project work activities address the different learning styles of students, Problem-based learning takes individual differences into consideration by giving students a chance to select their own topics (Wrigley, 1998).Therefore, PBL is not a new method and it has a connection with many old approaches as their contributions to concepts such as action-based learning, learning by doing, group dynamics and interpersonal communication have been instrumental in shaping many theories of learning and teaching, and when combined together, reveal the bare bones of PBL.
Student attitudes are considerably related to motivation and success. Having high skills and talents is not enough for students to complete a task successfully and to make them like an activity as they are doing it. In order to sustain students’ motivation, a positive opinion about the learning task and an internal stimulus is needed. Attitudes and beliefs are accepted as the pioneers of behavioral objectives. The probability of having willingness about learning tasks and sustainability of efforts are higher in students with a positive attitude. According to Mattern and Schau (2002), a positive attitude toward science classes is directly proportional to success. Therefore, it is important to find answers to questions asking what can be done to increase student interest toward science classes and to turn science classrooms into more enjoyable places. This study also aims to identify the effect of PBL on the attitudes of 3rd-year undergraduate students toward Electronics.
Problem -Based vs. Traditional Instruction
PBL is generally less structured than traditional, teacher-led classroom activities; in a problem-based class, students often must organize their own work and manage their own time. Within the problem-based learning framework, students collaborate, working together to make sense of what is going on. Problem-based instruction differs from inquiry-based activity by its emphasis on collaborative learning. Additionally, Problem-based instruction differs from traditional inquiry by its emphasis on students’ own artifact construction to represent what is being learned.
Both traditional and problem-based instruction may have the same course goals, objectives, and outcomes. Both have the same dilemma of getting students to learn the “need to know material” in a restricted time frame. Yet, there are several ways to distinguish between Traditional Instruction and PBL as tabulated in table 1:
Table 1: Differences between Traditional Instruction and PBL
Advantages of Problem-Based Learning
According to Westwood (2008: 34-35), the problem approach can be applied in almost all areas of the curriculum as it is useful because:
- Projects have a ‘real world’ orientation and promote meaningful learning by connecting new information to students’ past experiences and prior knowledge.
- Students learn valuable processes and skills for gathering and analyzing data.
- Students are responsible for their own learning, thus increasing self-direction and motivation.
- The learning process encourages various modes of communication and representation.
- The approach encourages the use of higher-order thinking as well as acquisition of facts.
- The approach develops deeper knowledge of subject matter.
- The approach also increases team-working and cooperative learning skills.
Methodology
Attitude is an internal state that influences student’s choices or decisions to act under certain conditions. Attitudes represent a tendency to respond in a particular way. In order to find out the students’ attitudes toward the PBL approach, I have designed a 30 term questionnaire has been designed. The questionnaire shown in appendix (1) contains terms concerning:
- Using Computer and Internet in Education
- Self Directed Learning
- Cooperative Learning Style
- Practical Skills in Electronics
The Likert technique was used. The technique presents a set of attitudes statements. Students are asked to express agreement or disagreement of a five-point scale. Each degree of agreement is given a numerical value from one to five. Thus a total numerical value can be calculated from all the responses i.e. the final score for the respondent on the scale is the sum of their ratings for all the items. In the case of reversal items, the scale will be reversed.
Also, the questionnaire includes data questions about gender and it includes information about ownership of PC and Internet access.
To ensure content validity, the questionnaire was checked out by an expert in the field of education and for validity test, it was run on a group of students whose attitudes are known and the result is positive ensuring questionnaire validity.
Analysis of Students’ Attitudes toward PBL
The analysis of terms for the attitudes of students toward PBL was carried out using the five-point Likert scale consisting of (1) strongly disagree, (2) disagree, (3) Neutral, (4) agree, (5) strongly agree, which was used in the items that measure attitudes. For statistical analysis, the descriptive procedures in SPSS (version 15) were used. The Cronbach’s Alpha equals 0.731 which is suitable for the research. The results are shown in the tables in the appendix (2).
Results
Computer Infrastructure
From (Table 3), all students have access to a privately owned PC they can use for their studies.
Internet Access
From (Table 4), all students have access to the Internet via ADSL.
Using Computer and Internet in Education
From (Table 5), most of the students are familiar with office applications and they enjoy using computer daily to perform educational tasks, and most of them agree that computer should play more important roles in Engineering education (item2, with mean equals 3.42 and SD equals 0. 9).
Also, from (Table 5), most of the students are familiar with e-mail, chat, and discussions. Most of the students can search the Internet for scientific information (item 5 with mean equals 4.42 and SD equals 0.669). From item 7, it is clear that students are interested in computer simulation.
Cooperative Learning Style
From (Table 6), it is clear that most of the students prefer learning with friends and like working on projects in a group (item 8 with mean equals 4.17 and SD equals 0.718) and item 10 with mean equals 3.83 and SD equals 0.835). From (Table 6), most of the students prefer learning collaboratively with friends and enjoy discussing scientific projects with their classmates (item 11 with mean equals 4.08 and SD equals 0.669).
Self Directed Learning
An important part of PBL is Self Directed Learning. It has been described as a process in which students take the initiative with or without help of teachers to formulate learning goals and choosing resources for learning.
From (Table 7), most of the students agree that they can take the initiative to diagnose their learning needs (item 19 with mean equals 4.17 and SD equals 0.937), identify the resources to achieve required objects of learning, select and implement certain application by searching the manufacturer Data Sheet of electronic components (item 17 with mean equals 4.33 and SD equals 0.492).
Practical Skills in Electronics
From (Table 8), most of the students prefer practical work. They agree that practical skills in Electronics enrich their creativity (item 26 with mean equals 3.33 and SD equals 0.778), develop their self assessment (item 27 with mean equals 3.08 and SD equals 1.165), increase their sense of responsibility (item 25 with mean equals 4.00 and SD equals 0.853), and enhance their self-confidence as future engineers (item 30 with mean equals 4.00 and SD equals 0.603).
Discussion and Conclusion
The survey was very revealing of the attitudes of students for PBL and educational technologies. As can be seen from tables (5 up to 9), the overall mean for most of the items is greater than (3) on a five-point Likert scale, which means that the general student attitude toward PBL was quite positive. The Cronbach’s Alpha was run and determined to be 0.731 (Table 1) which is acceptable for this research.
The need for PBL policies is today vital for our universities, because of the potential of educational technologies and the magnitude of changes they may provoke in education. The introduction and development of PBL require the involvement and collaboration of many different units within the university. The Institution should provide to students support and training in PBL, to enhance the positive attitudes. It should be clear that students have a key role in the success of any transformation in education and the attempt to introduce PBL practices into the curriculum will unquestionably fail unless students get persuaded for the benefits. Hybrid approach should be used in our universities.
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Appendix
Results of the Questionnaire for Students’ Attitudes toward PBL