This document discusses a study that investigated how well high school students in Qatar were prepared for engineering careers based on their exposure to key skills in secondary school classes. Classroom observations and teacher/student surveys were conducted in eight Qatari schools. The results showed that analytical thinking was introduced in about 38% of classes, but problem solving, teamwork, design activities, and technology use were each observed in less than 38% of classes. Overall, Qatari high schools provided limited opportunities for students to develop the skills needed for engineering programs. The study aims to help shape engineering courses and inform schools on better preparing students.
best engineering collage in dehradun.pptxIshitSharma2
Since we encounter a wide variety of problems, we have an equally wide range of engineering disciplines, many of which are highly specialized and designed to solve those problems. Dev Bhoomi Uttarakhand University is the one of the best Engineering College in Dehradun
The effect of the OSGIPE learning model based on the Indonesian National Qual...IJAEMSJORNAL
This research is a package that was carried out in a period of 3 years to develop a learning model based on the framework of Indonesia's national qualifications in an effort to improve students' vocational high school soft skills. The first year conducted two years ago, a draft learning model was found, namely the OSGIPE model. In the second year, a formative evaluation was carried out on the OSGIPE model through one on one, small group, and limited field trials. There was a significant increase in students' soft skills amounting to 23.05%. In the third year which is this year, a summative evaluation through wide field trials it have been carried out and still show that there is a significant increase in students' soft skills amounting to 23.44 %. It means that the OSGIPE model was feasible and effectively used to improve the soft skills of vocational high school technology students. So, the OSGIPE model can be used as an operational product concistently.
In industrial design education, mechanics-based courses are mainly based on traditional lecture and they are highly abstract for ID students to comprehend the mechanisms The existing studies highlight the requirement of a new approach for mechanics-based courses in ID departments The study presents, a combined teaching model of mechanism mainly based on applied teaching style and action learning to improve ID students' learning experience and competencies through promoting the transference of theoretical knowledge into practical experience and learning The combined teaching model consisting of 3 phases was integrated to a design studio project that is mechanical game design Project observations and post-questionnaire were employed to analyze objectively the appropriateness of the teaching model The results indicated that, the combined teaching model improved ID students' learning outcomes and competencies in terms of transferring the gained theoretical and practical knowledge to the action learning.
For More Information Visit Here: https://medium.com/@niet.greaternoidancr/niets-approach-to-project-based-learning-fostering-practical-skills-and-innovation-709b4eb2d9a1
best engineering collage in dehradun.pptxIshitSharma2
Since we encounter a wide variety of problems, we have an equally wide range of engineering disciplines, many of which are highly specialized and designed to solve those problems. Dev Bhoomi Uttarakhand University is the one of the best Engineering College in Dehradun
The effect of the OSGIPE learning model based on the Indonesian National Qual...IJAEMSJORNAL
This research is a package that was carried out in a period of 3 years to develop a learning model based on the framework of Indonesia's national qualifications in an effort to improve students' vocational high school soft skills. The first year conducted two years ago, a draft learning model was found, namely the OSGIPE model. In the second year, a formative evaluation was carried out on the OSGIPE model through one on one, small group, and limited field trials. There was a significant increase in students' soft skills amounting to 23.05%. In the third year which is this year, a summative evaluation through wide field trials it have been carried out and still show that there is a significant increase in students' soft skills amounting to 23.44 %. It means that the OSGIPE model was feasible and effectively used to improve the soft skills of vocational high school technology students. So, the OSGIPE model can be used as an operational product concistently.
In industrial design education, mechanics-based courses are mainly based on traditional lecture and they are highly abstract for ID students to comprehend the mechanisms The existing studies highlight the requirement of a new approach for mechanics-based courses in ID departments The study presents, a combined teaching model of mechanism mainly based on applied teaching style and action learning to improve ID students' learning experience and competencies through promoting the transference of theoretical knowledge into practical experience and learning The combined teaching model consisting of 3 phases was integrated to a design studio project that is mechanical game design Project observations and post-questionnaire were employed to analyze objectively the appropriateness of the teaching model The results indicated that, the combined teaching model improved ID students' learning outcomes and competencies in terms of transferring the gained theoretical and practical knowledge to the action learning.
For More Information Visit Here: https://medium.com/@niet.greaternoidancr/niets-approach-to-project-based-learning-fostering-practical-skills-and-innovation-709b4eb2d9a1
CS0: A Project Based, Active Learning Coursedrboon
The recruitment and retention of students in early computer programming classes has been the focus of many Computer Science and Informatics programs. This paper describes an initiative underway at Indiana University South Bend to improve the retention rate in computer science and informatics. The approach described in this work is inspired by the SCALE-UP project, and describes the design and implementation of an instructor-guided, active learning environment which allows students to gradually acquire the necessary critical thinking, problem solving, and programming skills required for success in computer science and informatics.
Design and development workshop interior design and furniture sectionIJERA Editor
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
Design and development workshop interior design and furniture sectionIJERA Editor
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
1
Name:
Instructor:
Engineering Students' Challenges
10/13/17
The engineering field is one of the most versatile and ever-changing areas across the globe. This is a field that can beat individuals to their knees, and it is for this reason that it is not meant for ordinary individuals (Trevelyan, p.3). The field is made tough by the fact that it is a technology field that separates scientific concepts from technology. Despite being this tough engineering is known for being the most sought-after course by individuals after high school. This is because individuals firmly believe in the superiority of specific classes over others. Individuals think that courses such as engineering are more superior and have a better promise for a brighter future as compared to courses in art and commerce. For these reasons individual dive into engineering for higher learning without fully understanding what they are getting themselves into just because they want to be associated with the superiority of this course.
While life as a college student is generally hard, it is definitely harder for a student pursuing engineering. These students have met with a large share of unique challenges again due to the fact that they pursue a complex scientific field. This paper will analyses the various challenges that engineering students must go through in the course of their education an also recommend ways of overcoming them.
The first major challenge facing students is the dilution of course content. Today, the college intake rules and guidelines have been lowered way below standard, and this enables weak students to be part of the system both in the private as well as public institutions. The number of weak students admitted to this course is higher than that of the qualified students in our institutions. As mentioned above the course content of engineering students do not favor mediocre and average students since it is highly complex. It is a course for the most elite individuals. The admission of such a large number of weak students has therefore caused many educational institutions to dilute the course content in consideration of the weak students.
The engineering classroom today is one where a greatly innovative mind which is well deserving to be in an engineering class studies or competes with an individual who has never plugged in a PC in their life. In general, this has lowered the quality of education that is delivered to the engineering students. The elite minds in the classroom, who are deserving to be there have nothing much to gain since the course only teaches the basics in so as to accommodate the weak student.
In the end, this means that the students do not gain the skills they need to be competitive in the world. The result is less innovation since the innovative skills of the elite are killed, and the weak do not gain any of them. It is for this reason that many of the engineering students merely looking for employment anywh ...
Development of Instructional Model Based on Indonesian National Qualification...IJAEMSJORNAL
This study aims to develop a learning model based on the framework of Indonesia's national qualifications in an effort to improve students' vocational high school soft skills in North Sumatra Province. In particular, this study aims to (1) find soft skills that are in accordance with the needs of the world of work through needs analysis from various sources (stakeholders) and library studies, (2) find the basis of KKNI-based learning models through design based on the results of needs analysis and library studies. (3) finding the effectiveness of the learning model through testing the learning model on a limited and broad scale, (4) and disseminating the developed learning model to the teachers of Technology Vocational Schools in North Sumatra Province. This research uses development research methods, carried out directly with descriptive data collection that processes and analyzes inductive data. To produce operational products, namely the Indonesian National Qualification Framework (KKNI) based learning model, a cycle of research and development was carried out known as "the R & D cycle" which was carried out in stages over a period of three years. In the first year research, survey methods were used through needs analysis. The second year, the trial method was used through expert review procedures, one-on-one trials, small group trials, and field trials (first class). In the third year using a quasi-experimental method with the design of "Pretest-Posttest Control Group Design", for a broader scale and method of dissemination. The population of this research is the State Technology Vocational School students in the field of technology and engineering expertise in North Sumatra Province. The research sample was taken by area randomly. Data collection techniques used in this study were non-test techniques and test techniques. The non-test techniques used were questionnaire techniques, interviews, and documentation. The test technique used is the appearance test technique (performance test). The data analysis techniques used are (1) descriptive analysis to describe the data analysis of the needs and results of the trial data, and (2) One Way Anova test to determine the differences in the effectiveness of the teaching materials tested.
This study was an assessment of the evaluation standards of “Practical
Education” module of the Elementary Education Undergraduate Program in
Arab Open University/Jordan. Its main focus was to investigate problems and
views raised by the students in order to develop more accurate standards to
evaluate their performance. The curriculum characteristics of the module as
well as the students’ portfolios and field reports had been reviewed. A
questionnaire and a detailed face-to-face interactive meeting had been
conducted with 55 male and female students in the academic year 2018/2019.
The results show that the students stress the need to adopt practical
applications standards to evaluate the skill goals sought by the curriculum
instead of focusing on their knowledge. The students express their need to
develop their skills in planning, implementation of teaching tasks and
evaluation, while the evaluation standards measure their ability to recall
theoretical information. They stress their need to extend their training period
in field in order to acquire enough practical experience to be more efficient to
carry out their tasks properly. The findings of the study can be applicable for
other countries, especially the developing countries, in the sense of
developing modern evaluation standards for practical field training of their
student teachers, as well as improving curricula that respond to the schools’
requirements in a changing world.
The Employability Competencies Needed by Educational Technology Teachers’ for...iosrjce
This study was carried out to identify the employability competencies needed by educational
technology teachers for effective teaching and learning in the 21st century workforce. Specifically, the
study determined the general employability competencies and the most important by ranking. Two
research questions and one null hypothesis were formulated and tested at 0.05 levels of significance
to guide the study. The descriptive survey design was used and the population for the study was made
up of 17 educational technology teachers in the Niger State College of Education Minna (COEM) and
the Federal College of Education Kontagora (FCE KNT). A structured questionnaire was used for
data collection. The data collected were analysed using frequency counts, mean and t-test. The
findings revealed that all the employability skills listed are needed, but integrity/ honesty ranked
higher while taking a reasonable job risk was ranked lowest. It was recommended that employability
skills should be given greater emphasis in training, educational technology teachers by ensuring that
these skills are integrated into the curriculum of educational institutions to ensure that students’ upon
graduation acquire such skills so as to fit into the 21st century workforce
Development of Indonesian National Qualification Framework-Based teaching mod...IJAEMSJORNAL
The learning model developed in this study is a whole series of presentation of teaching material that covers all aspects before being and after learning conducted by lecturers by including teaching materials in the teaching and learning process. The learning model developed is called QI MODELS with the syntax: Goals, Observation, Project, Discussion, Task, Practice, Meaningful, Justification, and Evaluation. Teaching material contains a set of material from the course "Instructional Media Design" that is arranged systematically so that lecturers and students can use it in the learning process in an atmosphere and a comfortable environment for learning. To see the effectiveness of the product an analysis of the learning outcomes of the 26 students taught using the Instructional Media Design textbook developed, and compared with the learning outcomes of students in the class taught with presentation material. Based on the analysis, the average value of basic competencies using instructional materials for Indonesian National Qualification Framework (INQF)-based Instructional Media Design is higher than the average value of students who use presentation materials. Testing the hypothesis used is a different test. From the calculation results obtained tcount = 7.63 while ttable = 2.01. Because tcount = 7.63>ttable = 2.01, it was concluded that there was a significant difference in students' learning achievement using Instructional Media Design textbooks and using presentation material. The effectiveness of the use of Instructional Media Design textbooks is 79.09%.
Ottoman Empire Essay. Ottoman empire religious tolerance essayKimberly Pulley
The Ottoman Empire Essay Example | StudyHippo.com. The Ottoman Empire golden age Research Paper Example | Topics and Well .... Read a Superb History Sample Essay on «Diplomatic History: The Ottoman .... PPT - Ottoman Empire Imperialism and Modernity PowerPoint Presentation .... In what ways was the Ottoman Empire different to its West European Essay. Ming ottoman comparative sample essay. Ottoman Empire Study Resources.
CS0: A Project Based, Active Learning Coursedrboon
The recruitment and retention of students in early computer programming classes has been the focus of many Computer Science and Informatics programs. This paper describes an initiative underway at Indiana University South Bend to improve the retention rate in computer science and informatics. The approach described in this work is inspired by the SCALE-UP project, and describes the design and implementation of an instructor-guided, active learning environment which allows students to gradually acquire the necessary critical thinking, problem solving, and programming skills required for success in computer science and informatics.
Design and development workshop interior design and furniture sectionIJERA Editor
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
Design and development workshop interior design and furniture sectionIJERA Editor
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
1
Name:
Instructor:
Engineering Students' Challenges
10/13/17
The engineering field is one of the most versatile and ever-changing areas across the globe. This is a field that can beat individuals to their knees, and it is for this reason that it is not meant for ordinary individuals (Trevelyan, p.3). The field is made tough by the fact that it is a technology field that separates scientific concepts from technology. Despite being this tough engineering is known for being the most sought-after course by individuals after high school. This is because individuals firmly believe in the superiority of specific classes over others. Individuals think that courses such as engineering are more superior and have a better promise for a brighter future as compared to courses in art and commerce. For these reasons individual dive into engineering for higher learning without fully understanding what they are getting themselves into just because they want to be associated with the superiority of this course.
While life as a college student is generally hard, it is definitely harder for a student pursuing engineering. These students have met with a large share of unique challenges again due to the fact that they pursue a complex scientific field. This paper will analyses the various challenges that engineering students must go through in the course of their education an also recommend ways of overcoming them.
The first major challenge facing students is the dilution of course content. Today, the college intake rules and guidelines have been lowered way below standard, and this enables weak students to be part of the system both in the private as well as public institutions. The number of weak students admitted to this course is higher than that of the qualified students in our institutions. As mentioned above the course content of engineering students do not favor mediocre and average students since it is highly complex. It is a course for the most elite individuals. The admission of such a large number of weak students has therefore caused many educational institutions to dilute the course content in consideration of the weak students.
The engineering classroom today is one where a greatly innovative mind which is well deserving to be in an engineering class studies or competes with an individual who has never plugged in a PC in their life. In general, this has lowered the quality of education that is delivered to the engineering students. The elite minds in the classroom, who are deserving to be there have nothing much to gain since the course only teaches the basics in so as to accommodate the weak student.
In the end, this means that the students do not gain the skills they need to be competitive in the world. The result is less innovation since the innovative skills of the elite are killed, and the weak do not gain any of them. It is for this reason that many of the engineering students merely looking for employment anywh ...
Development of Instructional Model Based on Indonesian National Qualification...IJAEMSJORNAL
This study aims to develop a learning model based on the framework of Indonesia's national qualifications in an effort to improve students' vocational high school soft skills in North Sumatra Province. In particular, this study aims to (1) find soft skills that are in accordance with the needs of the world of work through needs analysis from various sources (stakeholders) and library studies, (2) find the basis of KKNI-based learning models through design based on the results of needs analysis and library studies. (3) finding the effectiveness of the learning model through testing the learning model on a limited and broad scale, (4) and disseminating the developed learning model to the teachers of Technology Vocational Schools in North Sumatra Province. This research uses development research methods, carried out directly with descriptive data collection that processes and analyzes inductive data. To produce operational products, namely the Indonesian National Qualification Framework (KKNI) based learning model, a cycle of research and development was carried out known as "the R & D cycle" which was carried out in stages over a period of three years. In the first year research, survey methods were used through needs analysis. The second year, the trial method was used through expert review procedures, one-on-one trials, small group trials, and field trials (first class). In the third year using a quasi-experimental method with the design of "Pretest-Posttest Control Group Design", for a broader scale and method of dissemination. The population of this research is the State Technology Vocational School students in the field of technology and engineering expertise in North Sumatra Province. The research sample was taken by area randomly. Data collection techniques used in this study were non-test techniques and test techniques. The non-test techniques used were questionnaire techniques, interviews, and documentation. The test technique used is the appearance test technique (performance test). The data analysis techniques used are (1) descriptive analysis to describe the data analysis of the needs and results of the trial data, and (2) One Way Anova test to determine the differences in the effectiveness of the teaching materials tested.
This study was an assessment of the evaluation standards of “Practical
Education” module of the Elementary Education Undergraduate Program in
Arab Open University/Jordan. Its main focus was to investigate problems and
views raised by the students in order to develop more accurate standards to
evaluate their performance. The curriculum characteristics of the module as
well as the students’ portfolios and field reports had been reviewed. A
questionnaire and a detailed face-to-face interactive meeting had been
conducted with 55 male and female students in the academic year 2018/2019.
The results show that the students stress the need to adopt practical
applications standards to evaluate the skill goals sought by the curriculum
instead of focusing on their knowledge. The students express their need to
develop their skills in planning, implementation of teaching tasks and
evaluation, while the evaluation standards measure their ability to recall
theoretical information. They stress their need to extend their training period
in field in order to acquire enough practical experience to be more efficient to
carry out their tasks properly. The findings of the study can be applicable for
other countries, especially the developing countries, in the sense of
developing modern evaluation standards for practical field training of their
student teachers, as well as improving curricula that respond to the schools’
requirements in a changing world.
The Employability Competencies Needed by Educational Technology Teachers’ for...iosrjce
This study was carried out to identify the employability competencies needed by educational
technology teachers for effective teaching and learning in the 21st century workforce. Specifically, the
study determined the general employability competencies and the most important by ranking. Two
research questions and one null hypothesis were formulated and tested at 0.05 levels of significance
to guide the study. The descriptive survey design was used and the population for the study was made
up of 17 educational technology teachers in the Niger State College of Education Minna (COEM) and
the Federal College of Education Kontagora (FCE KNT). A structured questionnaire was used for
data collection. The data collected were analysed using frequency counts, mean and t-test. The
findings revealed that all the employability skills listed are needed, but integrity/ honesty ranked
higher while taking a reasonable job risk was ranked lowest. It was recommended that employability
skills should be given greater emphasis in training, educational technology teachers by ensuring that
these skills are integrated into the curriculum of educational institutions to ensure that students’ upon
graduation acquire such skills so as to fit into the 21st century workforce
Development of Indonesian National Qualification Framework-Based teaching mod...IJAEMSJORNAL
The learning model developed in this study is a whole series of presentation of teaching material that covers all aspects before being and after learning conducted by lecturers by including teaching materials in the teaching and learning process. The learning model developed is called QI MODELS with the syntax: Goals, Observation, Project, Discussion, Task, Practice, Meaningful, Justification, and Evaluation. Teaching material contains a set of material from the course "Instructional Media Design" that is arranged systematically so that lecturers and students can use it in the learning process in an atmosphere and a comfortable environment for learning. To see the effectiveness of the product an analysis of the learning outcomes of the 26 students taught using the Instructional Media Design textbook developed, and compared with the learning outcomes of students in the class taught with presentation material. Based on the analysis, the average value of basic competencies using instructional materials for Indonesian National Qualification Framework (INQF)-based Instructional Media Design is higher than the average value of students who use presentation materials. Testing the hypothesis used is a different test. From the calculation results obtained tcount = 7.63 while ttable = 2.01. Because tcount = 7.63>ttable = 2.01, it was concluded that there was a significant difference in students' learning achievement using Instructional Media Design textbooks and using presentation material. The effectiveness of the use of Instructional Media Design textbooks is 79.09%.
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Ottoman Empire Essay. Ottoman empire religious tolerance essayKimberly Pulley
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2. 341
Huda Al-Qahtani et al. / Procedia - Social and Behavioral Sciences 102 (2013) 340 – 351
Keywords: Qatar; Engineering; Texas A&M University; Challenges; Skills; High schools; Problem solving; Analytical thinking;
1.Introduction
Engineering is defined as the application of mathematical and scientific principles to be able to design and
build machines, devices, systems and processes. Apart from the traditional engineering education, successful
engineers need leadership, great communication and problem solving skills [1,2]. A recent national report
proposes that engineering graduates are -prepared to solve real problems in a cooperative way, lacking the
Consequently, engineering institutions are ameliorating curricula
to introduce hands-on, active-learning techniques, and open-ended design problems into many courses [4-7].
Similarly, Engineering professors have increasingly begun to read the education literature and to attend ASEE
conferences and teaching workshops, and some have attempted to adopt new approaches in their teaching [8].
In Qatar, secondary school students show a significant interest in engineering mainly because of the strong
demand for engineers in the local market. This is due to the increasing oil and gas megaprojects conducted in the
area which led to rapid growth in industry and infrastructure. The three main motives for the increasing interest
in pursuing an engineering education are the greater job opportunities, higher status of engineers in society, and
family influence. However, upon entering university, students struggle to understand what engineering actually
entails and the qualifications of the engineering profession. To help them to get over their struggle, students are
Texas A&M University at Qatar offers its students a variety of courses in different areas to prepare them
thoroughly for the workplace. Its engineering program starts with a two part sequence of an introductory course
to engineering titled ). The content of this course was developed to
show engineering students from all disciplines how to apply technical and non-technical skills on a project-based
instruction. The non-technical skills mainly include problem solving, design and Group work skills. Solving
problems and designing their solutions represent the cornerstone of the engineering endeavor. Employers look for
engineers who are effective at solving open-ended problems. Engineering accreditation demands evidence that
students can tackle open-ended problems proficiently.
However, it was noticeable that a large number of freshman engineering students at TAMUQ have a hard time
understanding the objectives of the ENGR 111 course, hence, go through a heavy load of pressure to acquire the
necessary skills that are introduced in the course. The issue is that those students are well prepared in
mathematics and science. But, they cannot seem to grasp the idea of applying the concepts in order to solve real
life problem.
A lot of students find it really hard to work with design and problem solving questions. This is not due to their
lack of ability, but rather due to a lack of experience in their secondary schools. Therefore, their first exposure to
engineering becomes a serious challenge instead of it exciting them about their future profession.
Difficulties that students face when solving questions can be strongly related to their lack of analytical
thinking. Successful engineers consider analytical thinking an effective way to study things carefully. Recently,
there has been a push to better prepare students for an undergraduate engineering curriculum by introducing them
to various engineering-based activities and courses while still in secondary school [9]. Studies have shown that
exposing high school students to project-based experiences promotes active learning and the development of
problem-solving and teamwork skills [10]. Teamwork has been increasingly advocated by industrial leaders
lately, to assure quality of the work done and increase efficiency. In high schools, integration of engineering
principles into science instruction presented through problem-solving inquiry/discovery pedagogy can stimulate
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students as well as enable them to recognize a direct link between their course work and the tasks performed by
engineers in the real world [11].
To identify the major reasons that lead to the difficulties experienced by students in the engineering discipline
in TAMUQ, a research about how Science, Technology, Engineering and Mathematics (STEM) material is
presented to secondary school students in Qatar and how well engineering activities are integrated into STEM
curricula was conducted. The investigation would help in adopting better teacher strategies to enhance the
learning experience in ENGR111. Moreover, the competency levels of students in these secondary schools can be
ering in secondary schools can be
recommended. Overall, this research is aimed at identifying the key skills that are required to enhance the
2.Methodology
which are: analytical thinking, problem solving, teamwork design, and design usage. We selected eight Qatari
secondary schools from which we were granted permission to conduct the research; We visited schools,
reviewed the curriculum for mathematics, chemistry and physics classes and surveyed the teachers and students
of the years eleven and twelve.
The tools that were developed in order to help us examine the exposure of the students to the key learning
objectives of ENGR111 are the following:
Classroom Observation Protocols
Teacher Surveys
Student Surveys
2.1 Classroom Observation Protocol (COP)
The classroom observation protocol (COP) was developed to give the observer an insight on how to observe a
class in session. The COP tests how frequently different skills are being implemented by both the teachers and
the students. Those skills were divided into five sections according to the key learning objectives of ENGR111:
analytical thinking skills, problem solving skills, teamwork skills, engineering design skills, and the use of
technology. The COPs were conducted by two observers who had to rate each skill from 1 to 5. The sections
were the following
Analytical thinking: This section focuses on whether the students understood problems that the teacher
classes. They also recorded whether the teacher reviewed the steps needed in the problem to help the
Problem solving: Here the observers recorded how the teacher approached the problem. They noted
whether the students were engaged in the activity, and whether they were encouraged to identify the
problem, asked questions, and whether the teacher explained the reason behind selecting one specific
answer over another.
Teamwork: for this section, the observ
were asked to work on as a team to solve a certain problem. The observers recorded if the students
divided the tasks amongst them and how well they worked together.
Design: This sections focuses the projects, hands-on construction or design activities that the teacher
assigns to the students in the class. The observers analysed interactions between the students and the
Observers also noted the creativity of the students through the ideas they suggested.
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Use of technology: Observers evaluated the use of technology in the classroom, such as PowerPoint
presentations, calculators, and online resources.
In addition to this, observers recorded whether students took notes and asked questions during class.
The data that was collected from the observations and surveys was recorded the Qualtrics online survey
software. Observers used tablet computer technology while in the classrooms to feed the information gathered
into the program.
2.2 Teacher Surveys
basing that on the five engineering learning objectives.
Teacher Demographic Survey: The purpose of this survey was to collect demographic data, such as the
subject title, their degrees, and if they have a degree in education. A second section was created in the survey
to gather information about their teaching years and experience.
Teacher Survey: The teacher survey was developed to both evaluate how the teacher conducted a lesson,
and also how the lesson was prepared. The surveys had questions concerning the Qatar National Curriculum
Standards and whether the teacher applied these standards when conducting a lesson. Also, questions about the
them questions, designating a student to answer, explaining the answer, and asking students if they understood
what was explained. The survey included questions relating to the division of class time, discussion of the
objectives with the students, whether conclusions were identified to the students in the lesson, and whether the
teacher used technology when conducting a lesson. Another aspect of the survey was the methods used by the
teacher to assess the level of understanding of the students, such as quizzes, graded homework, tests, and
projects.
Surveys were distributed to teachers mainly as online forms through a link. Otherwise they were distributed as
filled out the surveys while only
Qualtrics software.
2.3 Student Surveys
and their teachers as well. Topics that were covered in these surveys involved student understanding of the
categorized based on the five engineering principles discussed earlier. The way that student surveys were
distributed was mostly as hard copies. Observers would then enter the responses into Qualtrics surveys forms.
However, some students were able to answer the surveys electronically, by either filling them in a computer
laboratory during their IT class or filling them at home where a link of the survey was sent to them. The overall
were not cooperative
was not possible.
3.Results and Discussion
the classroom observations, and teacher and student surveys were analysed in order to determine how well each
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of the engineering principles was incorporated into the learning process in the local Qatari high schools. Each of
the following surveys has been divided into the 5 sets of objectives discussed previously.
3.1 Classroom Observations
3.1.1 Analytical Thinking
The teachers were doing a very good job in guiding the students through the analytical thinking process. It
was observed that the teachers were explaining the requirement, appropriate steps were taken while solving
problems, and the correct formula was being applied about 80% of the time. Also, about 83% of the teachers
were checking the answers consistently throughout the class, more than half of the time and about half of the
time. Analytical thinking is one of the basic skills engineers need in the course of their studies, and the students
were being well-prepared in analytical thinking according to the observations. Most of the required applications
of analytical thinking were either observed more than half of the time or observed consistently throughout.
3.1.2 Problem Solving
Although the observations in this part were scattered around the scale almost equally in most questions, it is
safe to say that problem solving methods were clearly observed about half the time.
Most of the responses for the observations were noticed half the time. However, proposing different ways to
solve a single problem was mostly not observed. This is one of the important parts of problem solving because it
broadens the scope of understanding in the students. It helps them rely on themselves in going through the
problem solving process instead of blindingly copying or repeating what was done in front of them.
3.1.3 Team Work
The lack of teamwork is one of the main problems observed in the classes. It is almost not observed in all of
the schools. The results were the same for all the skills required for this objective. Teamwork is one of the most
crucial skills required in university as well as in the workplace. This lack of team work is most likely due to the
unawareness of the teachers of the importance of team work. Teachers give very few group activities to the
students and when they do, students depend on one member to do the work, there is a lack of discussion among
have skills in distributing tasks among them fairly.
3.1.4 Design
In this part of class observation, the seven schools exhibit some good standards regarding design. For more
than half of the time, the requirements of the given activity are clearly communicated by the teacher. However,
it is noticed that students do not suggest a variety of ideas as this was not observed in more than 50% of the
classes. This imposes the idea that they rarely perform effective team work and think critically.
3.1.5 Use of Technology
Technology use, by all its aspects, was generally not observed at all in about 85% of the classes. It was very
limited in use. Online resources usage was not observed. These sources are considered one of the most frequent
technology uses that students have to deal with when enrolling to college. Calculators were observed by some
students in some classes. Usually, the teacher will give the calculated answers; few students will perform the
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calculations on their own. Online assignments, support links were all not observed. The mostly-used technology
in these schools is PowerPoint Presentations. However, very few presentations are interactive. Technology
usage is the central pillar of the engineering education. If students do not have the experience and are not
professional in using it to help their education, then, they will be lacking a lot of skills and information.
Results from the classroom observations showed that none of the identified key ENGR111 learning objectives
were used in the learning experience provided to the students at the surveyed schools. All of the learning
objectives were observed in less than 38% of the schools
Fig. 1: Observation Results for All Skills
In general, all skills observed were not consistently seen in more than 40 % of the classrooms. Analytical
thinking, for example, is a basic skill that was only observed in 38 % of the classrooms. The results for the
observation of problem solving skills were also similar. In this case, only 24% of the surveyed schools adopted
active problem solving strategies in the classroom. This meant that teachers were not consistently engaging
students in activities that enhance their analytical thinking and problem solving skills.
Team work was the least observed skill, as only 7% of the classes had teachers that engaged students in team
work activities. Team work is necessary for the development of communication skills and leadership qualities.
Even when working in groups was the case, students lacked basic information that could help them organize
their groups. Since group activities or projects were rarely assigned, students were unable to distribute tasks
among each other fairly. In addition, certain students would not even participate in these activities.
As seen in Figure 1, engineering design was also minimally observed. All class activities were clearly stated
and explained to the students giving them very little to no room for giving input or proposing their own designs
and ideas. Design activities were only observed in 13.8% of the classes.
Technology use was observed in less than 14 % of the classes. The use of online resources, online
assignments, and even calculators was not observed at all. These are important tools that are consistently used in
. The use
of Power Point slides during lectures was the only observed incorporation of technology in the classrooms.
However, this limited the interaction between the students and the teachers. Finally, note taking and open
questions were observed in 24.6% of the schools; a number that shows that less than a quarter of the students
were truly engaged in the classes.
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3.2 Teacher Surveys
Given below are the main points extracted from the teacher demographic surveys.
All the teachers taught in their field of education
All the teachers had a bachelor degree or higher
Nearly half of the surveyed teachers had a degree in education
The average teaching experience of the teachers was 20+ years
The average teaching experience of the teachers for the current subject in grades 11 and 12 was 4-8
years
3.2.1 Analytical Thinking
This part of the survey showed that most teachers say they apply these standards always in their classes. They
said they almost always prepare questions to engage students and inform the students of the learning objectives.
They also said they have enough time to explain lessons and they give real life examples which help the students
relate to the lesson. These standards go into the analytical thinking that helps students better understand lessons.
3.2.2 Problem Solving
Problem solving showed a very good result as teachers said they almost always follow the standards. As can
be seen from the following columns, 70% to 85% of the teachers said they give students problems in class,
enough time to solve them, and then review the solutions with students. However, this is self-reporting and can
be biased in many cases.
3.2.3 Team Work
Teachers gave varied responses when asked about teamwork in class. When asked about assigning groups for
projects, five teachers answered with frequently and always while 8 teachers reported doing that sometimes or
less often. Most teachers said they always let the students choose the groups to work in themselves. This is not a
good practice because universities and companies alike make their students/employees work in assigned groups
which they cannot control.
3.2.4 Design
When asked about design, answers were also scattered. Most teachers said they sometimes give students
activities involving building objects while almost a 1/3 said they do that frequently or always. However, almost
half reported giving students building activities during class time. A discrepancy is obvious here between the two
questions and no further conclusions can be made.
3.2.5 Use of Technology
6 out of 14 teachers reported using technology during class time to help explain lessons while 7 said they do it
sometimes or frequently. When asked about the use of internet or other resources, 11 reported doing it frequently
or always. The use of technology is also assumed to be a bit exaggerated considering they are self-reporting and
the fact that classroom observations showed less use of technology.
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Fig. 2: Teacher Survey Results for All Skills
The above graph is a summary of what the teachers reported. Nearly 74% of the teachers recorded that they
consistently use the skill of analytical thinking and 60.7% of the teachers felt that they discuss proper problem
solving techniques in the class. Only, 38% of the teachers surveyed noted that they included teamwork in their
class activities. It is also noticeable that 25% of these teachers observed that they gave student activities that
involved the building of objects like modules of molecules, electric circuits. As for the use of technology, only
about 35.75% of surveyed teachers identified that they used PowerPoint presentation, calculators, or online
assignments in their classes.
3.3 Student Surveys
3.3.1 Analytical Thinking
The graphs above show the analytical thinking aspect and how the students reported it. Similar to the
porting and the observations, the analytical thinking part of the standards seems to be well-covered
and taught. Most students reported understanding what the teacher asks for and that the teacher revises steps
done in class almost always. Similarly, most students said they clearly understand what the problems ask for and
what formulas to apply in problems.
3.3.2 Problem Solving
When it comes to problem solving in class, the answers showed that more than half of the students said they
are given enough time to discuss it with classmates and are encouraged to think of different solutions. However,
almost the same number of students gave an answer ranging from never to sometimes.
3.3.3 Team Work
The results of the surveys related to teamwork were a bit surprising as most students gave a good report of
this objective. Most answers ranged between sometimes and always when asked about contributing to ideas in a
group, distributing tasks between members, and accomplishing the given work.
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3.3.4 Design
When asked if the teacher encourages them to be creative, most students said always or frequently.
Nevertheless, almost half said that never, rarely, or sometimes happens. No direct question was asked about
design building activities, but a comparison can be drawn relying on the observations and teacher reporting only.
3.3.5 Use of Technology
The answers for the use of technology in class varied according to the specific instrument/method used. Most
students said they always use a calculator in solving problems. However, answers for the use of PowerPoint
presentations and online resources were fairly distributed. Less than half of the students said that presentations
always bore them, while almost 1/6 said it never does.
Fig.3: Student Survey Results for All Skills
Figure 3 presents the overall results of the five skills that are based on the survey responses. It was inferred
that the results matched what was obtained from the classroom observations. A percentage of 39.7% of the
students in all schools went through the basic phases of analytical thinking in their classes while 41.65% of the
students practiced problem solving techniques. In contrast, teamwork occupied the lowest percentage compared
to other skills where only 28.02% of the students were involved in teamwork activities during their coursework.
Regarding engineering design, only 31.4% of the students mentioned that they participated in design related
activities in class or even suggest any ideas during these activities. Finally, for the results on the use of
technology in the classroom, such as the usage of PowerPoint and calculators, only 28.4% of these students
reported that technology was consistently implemented in class. However, students do use technology outside
their classroom environment in order to communicate with their classmates or team members for assignments or
projects. Their methods of communication include messenger, Facebook, phone calls, WhatsApp, and twitter.
4 Comparison
4.3 Analytical Thinking
By looking at the analytical thinking graphs in both classroom observations section and student surveys, it was
remarked that the correct formula or principle applied to solve problems percentages match in both graphs.
Moreover, 175 students indicated in the student surveys that their teachers always revise the steps done to help
them solve the problem and less than half of the above number indicated that teachers frequently revise steps to
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help them solve the problems. However, the researchers observed that most of the responses ranged between
The variations of these results is due to the fact that observers only attended few classes and recorded results
explanation in class.
4.4 Problem solving
The variation observed in this section has to do the time provided to the students to discuss and/or solve the
problem. While only 45% of the students said that teachers always provide them with enough time to discuss
problems with their classmates, around 80% of the teachers said they always do. Comparing these two numbers
with the results obtained in the classroom observations, it is clear that there was a correspondence between
classroom observations and student surveys results.
It is then concluded that the teachers expect a much quicker response from the students. While, the students
need more time to solve questions.
4.5 Team work
The two aspects that were investigated in this section were the fair distribution of tasks among team members
and the suggestion of ideas to each other.
While 78.5 % of the students indicated that they always, frequently or sometimes distribute tasks among each
10% of the students were always suggesting ideas to each other while more than 25% of the students said that
they always suggest ideas to each other. These results were inconsistent for various reasons; first of all, the
observers only observed a few classes which mean that these results could be inapplicable to different classes,
and second, the students could be biased when saying that would always contribute with ideas to the team.
4.6 Design
Contrarily to what the classroom observation indicate, the teacher surveys and the student surveys show
correspondence in this particular section: About 50% of the students said that their teachers always and
frequently encourage them to be creative and about 50% of the teachers said that they give students activities that
involve building objects frequently and half of the time.
4.7 Use of technology
The use of technology results vary from one survey to the other. While almost 70% of the teachers claim that
they use technology during class (PowerPoint, virtual labs, pictures, graphing programs, videos, etc.) either
always or frequently 40% of the students said that the teachers use PowerPoint presentations to explain lessons.
The classroom observations indicate that more than 30% of the teachers never use interactive technology and
40% of the teachers always use technology to explain lessons.
5. Conclusions
The purpo
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Team Work, Design and Use of Technology, were all the major principles that team was investigating in the
eight Qatari high schools that were asked to join the research. After investigating these principles, by surveying
the teachers and students and observing Mathematics, Chemistry and Physics advanced subjects classes, it was
findings explained in the results sections. Mostly all of the Engineering principles are not being addressed
schools showed great commitment by both their students and teachers.
6. Recommendations
It is recommended that ENGR 111 course activities be reconstructed in a way that helps students gain more
hands-on experience. An example of these activities would be the construction of models that involve principles
such as problem solving, teamwork, and the use of technology. Another recommendation would be that students
who appear to be facing problems be provided peer support early in the semester in order to address their
difficulties. Schools in Qatar should also re-evaluate their curriculums and incorporate more learning activities
during classes. In addition, technology and teamwork should be emphasized through laboratory sessions,
activities, and projects. Finally, the findings of this research need to be enhanced with further and deeper
research. The Education process is by itself complicated. So, the team highly recommends higher educational
to applying Engineering Principles.
Acknowledgement
This work was made possible by a UREP award [UREP10-091-5-027] from the Qatar National Research Fund (a
member of the Qatar Foundation). We would also like to acknowledge the support of the teachers and students
who participated in the study.
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