MINISTRY OF EDUCATION AND TRAINING HANOI NATIONAL UNIVERSITY OF EDUCATION HO THI HONG VAN
TEACHING GRADE 10 BIOLOGY TO MEET THE TARGETING OF CAREER ORIENTATION
Major: Theory and Method of Teaching Biology
Code: 9140111
DISERTATION SUMMARY FOR DOCTOR OF PHILOSOPHY PROGRAM IN EDUCATION
Hanoi – 2020
The thesis has been completed at: Faculty of Biology – Hanoi National University of Education Supervisor: Professor Dinh Quang Bao
Reviewer 1: Associate. Professor. Mai Van Hung University of Education, Vietnam National University, Hanoi
Reviewer 2: Associate. Professor. Nguyen Van Hien Hanoi National University of Education Reviewer 3: PhD. Le Thanh Oai Journal of Education
The dissertation is defended before Scoring Board Council at institution level at Hanoi National University of Education at …. hour…… day….. month……. Year
The dissertation can be referred at: 1. National Library of Vietnam 2. Library of Hanoi National University of Education
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INTRODUCTION
1. THE REASON TO CHOOSE THE RESEARCH TOPIC
Based on the need for educational innovation to meet career- oriented goals, the role of career orientation in the field of Biology, and the role of the application of biological sciences in the field of industry, in order to meet the career-oriented goals of the high school Education Program and in teaching high school Biology, there should be detemined how to select appropriate contents and organizational methods with modern biotechnology processes that help students gain specialized competencies in the subject and approach relevant career options. Based on the analysis of the role, situation, guidelines of the students’ career orientation, we have chosen the research topic "Teaching grade 10 Biology to meet the targeting of career orientation ". 2. RESEARCH PURPOSES
Establish a scientific basis and propose a process of organizing the teaching of grade 10 Biology to meet the career-oriented goals in implementing the General Education Program 2018. 3. STUDY OBJECTTIVES AND STUDY SUBJECTS 3.1. Study objectives
The process of teaching Biology meets the objectives of career
orientation for high school students. 3.2. Study subjects
The process of teaching and learning Biology meets the career-
oriented goals for high school students 4. SCIENTIFIC HYPOTHESIS
If the principles are identified, the process of organizing the teaching of grade 10 Biology with exploratory teaching is based on the 5E inquiry learning model and experiential teaching to enhance
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students' attitudes about science and technology applications and interests , interested in the subject will contribute to the formation and development of career-oriented capacity related to biology for students. 5. RESEARCH TASKS
5.1 Identify theoretical basis for career orientation, career orientation competence and teaching methods to develop students’ career orientation.
5.2. Surveying the reality of teaching Grade 10 Biology towards
developing career-oriented competencies in some high schools.
5.3. Analyze the content of Grade 10 Biology program, identify
contents that can be career-oriented for students.
5.4. Proposing principles, operational design processes, teaching organizing process in Grade 10 Biology to form and develop career orientation in students.
5.5. Develop career-oriented learning topics in teaching grade 10
Biology.
5.6. Develop criteria and tools for evaluating vocational
orientation competencies.
5.7. Pedagogical experiment to evaluate the achievement of students' career-oriented competence through the process of teaching grade 10 Biology. 6. RESEARCH LIMITATIONS We chose to survey and study the methods of organizing teaching some contents in the 10 high school biology program under the State University. Subjects conducting surveys and experiments in grade 10 of some high schools.
7. RESEARCH METHODS
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Theoretical research method, practical research method, expert consultation method, pedagogical experiment method, mathematical statistical method. 8. NEW CONTRIBUTIONS OF THE STUDY - Systematize theoretical basis for career orientation, career orientation capacity. - Identify the structure of career orientation competence of high school students - Develop a design process and process for organizing 5E discovery learning activities and experiential activities for career orientation in Biology teaching. - Identify criteria and tools to assess career-oriented competence in teaching Biology.
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RESEARCH RESULTS
CHAPTER 1: THEORETICAL AND PRACTICAL BASIS OF TEACHING OF STUDENTS GRADE 10 BIOLOGY TO MEET THE TARGETING OF CAREER ORIENTATIONS
1.1. Overview of research on career orienation and teaching subjects to career orientation
Career orientation has been around for a long time in the world, studies have affirmed the role of vocational training for young people and students to help them choose a career that suits their ability, interests, interested, encouraged to combine career guidance in schools with production workers, visiting, practicing in factories to enhance students' awareness of the career.
Through research on career orientation in the field of science and technology in the world through the subjects for students, we realize that this job is usually not carried out individually in a subject but has
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integrated application. knowledge of many subjects, especially science subjects. The authors have focused on studying the influence of individual factors and the academic environment of academic subjects on career choice of STEM. Career-oriented research for students through the subject has been interested by some authors. However, there has been no research on specific ways to design and organize teaching activities to guide careers for students in teaching Grade 10 Biology under the new General Education Program (Ministry of Education and Training, 2018). 1.2 Theoretical basis of teaching for career orientation at high schools. 1.2.1. Perspective on career orientation at high school level 1.2.1.1. Career orientation
From analysis of research, in education, career orientation for students is understood as a system of impact measures to guide and prepare students to participate in labor in sectors of society based on capacity, interest of the people.
Career orientation through Grade 10 Biology is a system of impact measures of Biological teachers to guide and prepare students to identify and select related careers, based on competence and inspiration. your pets. 1.2.2.2. Some basic theoretical models of career orientation for students
Analyzing some model such as: Eccles’ expectancy–value theory (2009), Holand’s code (RIEAC), Krumboltz’s theory... are the theoretical basis for teaching career orientation. 1.2.2.3. Psychophysiological characteristics and career awareness of high school students 1.2.2.4. Characteristics and career-oriented goals in the General Education Program and Biology Program 2018
The Biology program 2018 has a clear orientation of teaching the is associated with practical applications, basic content and
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technological processes related to biological professions to develop the orientation. Career guidance for students. Biology grade 10 has content circuits developed in the direction of basic biological content, requiring students to apply in real life, application in technological processes in fields related to biology (food technology, medicine, agriculture, ...). This is a opportunity to organize teaching with the goal of career orientation for students through this subject. 1.2.2. Career orientation competence 1.2.2.1. Concept of career-oriented competence
In this study, we will analyze career-oriented competencies based on the definition of career-oriented competencies as follows: career- oriented competence is the ability to self-awareness about the interests and strengths, cognitive ability, and planning to meet an individual's career goals. 1.2.2.2. Expression of competence career orientation
Based on analyzing the views on the career-oriented competence of the authors and based on the characteristics of Vietnamese education, we selected typical characteristics of career-oriented competence as follows: Table 1.1. Career orientation competence Elements Expression
- Determine your interests and abilities. - Demonstrate an understanding of personal to achieving personal characteristics related career goals - Determine your desires, dreams, goals and use
and
1. Skills for awareness of hobbies and of interests yourself 2. Awareness skills on application of relevant subject career knowledge for career guidance for a lifetime - Identify the core knowledge of the subject - Identify and explain the relationship between academic content and practical applications in industry fields. - Analyze job information, agencies and enterprises and use this knowledge for future career and job selection.
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3.Career planning skills
- Determining learning goals related to career choice for yourself - Determining expected career priorities - Identify measures to develop occupational skills (volunteering, extracurricular activities, part-time work, transition programs from school to work, etc.) - Develop a personal career plan
1.2.3. Active teaching methods contribute to meeting career-oriented goals in the field of science for students
Student’s science interest
Experiential activities
Student’s career aspiration
Student’s ultility of science and career awareness
Student’s career planning
5E Inquiry Learning and teaching model
Based on the previous research results and advantages in meeting the goal of career orientation, we choose to organize exploral activities (under the 5E Inquiry Learning Model) and teach experience to organize teaching activities to discover science applications and career experiences to improve the career-oriented competence for students through grade 10 Biology. These teaching methods will be used in teaching Biology, designed, organized and test the effectiveness of increasing the interest in the subject and promoting students' learning and career aspirations related to Biology on the basis of the theoretical model of expected value of Eccles (2009). Our research model is shown in Figure 1.5.
Figure 1.5. Research model
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5E Inquiry Learning Model
Model 5E (short for words: Engage, Explore, Explain, Elaborate,
and Evaluate. Applied quite popular in science classes and STEM
integrated programs in the US. The 5E Inquiry Learning model is
based on cognitive constructivism of the learning process, whereby
students build new knowledge based on knowledge or experience.
Experimental teaching model of David Kolb: consists of four
stages: (1) Concrete experience, (2) Reflective observation (3)
The basis for designing 5E inquiry activities and career experiential activities
Career orientation competence (Objectives)
The component skills
Designing topics based on teaching 5E model, teaching experiential activities
Learning activities exploring scientific applications
Organize learning activities
Developing the component competencies
Developing career-oriented competence
Abstract conceptualisation: (4) Active Experimetation.
The basis for using 5E model and experiential teaching to develop career-oriented competence
Students perform learning activities
Figure 1.6. The basis for designing and organizing 5E discovery teaching and experiential teaching activities for University of Foreign Studies for students
1.2.4. Opportunities to develop career-oriented competence when
organizing discovery teaching under the 5E model and experiential
teaching
1.2.4.1. The relationship between teaching discovery under the 5E
model and the goal of developing career-oriented competencies
Exploration teaching in 5E model has many opportunities for teachers to practice vocational orientation competencies for students,
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this relationship is shown at each stage of the teaching model. 1.2.4.2. Opportunities to develop career-oriented competence when organizing experiential teaching
Experiential teaching is a teaching method that has a positive impact on raising interest in the subject, thereby contributing to the development of career-oriented competencies for students. The correlation between the characteristics of experiential teaching and the corresponding manifestations of vocational orientation competencies is shown at each specific stage of the experience cycle.
1.2.5. Assessment tool for career orientation We have studied and applied flexibly the tools that have been tested in the studies of Novodvorsky (1993), Ornstein (2005), PISA (2015) to develop a scale to assess the career-oriented competencies of Students in teaching Biology. 1.3. Current situation of career-oriented education in Vietnamese schools We investigated over 235 Biology teachers at some high schools in Hanoi, Nam Dinh, Hoa Binh, Vinh Phuc and Lao Cai province and 319 students of some High Schools in Hanoi about the content, degree of implementation and effectiveness of teaching and learning activities aimed at career-oriented education, students' awareness of interests, interests and access to career information through teaching students study in high school. 1.3.5. Survey results
1.3.5.1. Evaluate factor measurement scales and analyze discovery
factors in the model
All factors have Cronbach's Alpha coefficient greater than 0.6,
the variables correlate with the total variable less than 0.3. This proves
that all factors have achieved the necessary reliability of the scale
value.
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1.3.5.2. Frequency of applying teaching activities in teaching Biology
of teachers.
Experimental activities, practical applications such as students
draw conclusions after experiments, students self-study science and
study related lessons are less organized by teachers . Teachers are still
the main leading role in the learning process, the initiative and
creativity of students have not been facilitated to develop through
learning activities.
1.3.5.3. Current situation of career-oriented teaching through Biology Learning about the application of subject knowledge in professions and career information is less organized by teachers during class. 1.3.5.4. Frequency of implementation of the method of teaching experience of teachers.
Teachers can perform from fairly good levels into experimental design, practical activities for experiential teaching, bringing appropriate learning tasks for each student. These are favorable conditions for the implementation of experiential activities, applying lesson knowledge to practice for students. 1.3.5.5. Frequency of conducting discovery teaching activities
Discovery teaching activities are rarely organized by teachers in teaching practice. However, preparing and giving lectures in class are often organized by teachers. 1.3.5.6. Assess the impact of factors on Career-oriented teaching through Biology
Teaching career-oriented teaching through Biology is closely related to experiential activities, teacher-led teaching activities, teaching discovery and applied science and technology. 1.3.5.8. Attitudes and perceptions of students with Biology
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Science subjects are attractive to students, but learning biology in
the classroom has not created interest and interest for them. 1.3.5.9. Situation awareness and access to student career information
Students have not been fully introduced with the career information associated with the subject, the location of career information is unknown, more than 70% of students have not been fully introduced about the steps that students should take when choosing choose a career. 1.3.5.10. The degree to which students participate in learning activities
1.3.5.11. Career aspirations of students The fields related to science with general and biology in particular have not attracted the attention of students. In particular, the percentage of students wishing for scientific careers is very low with 18.5% of students. The proportion of students who want to major in science related subjects after high school is 28.1%.
Conclusion of chapter 1
• The researches in the world and in Vietnam have affirmed the role of career orientation for students, helping them choose careers that are suitable for their abilities, interests and interests. Career-oriented career in the field of science and technology through the subjects for students, usually not carried out individually in a subject but with the integration and manipulation of knowledge of many subjects, especially science subjects. learn. The authors have focused on studying the influence of individual factors and the academic environment of academic subjects on career choice of STEM.
• The results of an overview of career-oriented competencies, the relationship between the characteristics of experiential teaching and the manifestations of career-oriented competencies are important directions for us to continue researching the topic. propose processes and measures to organize teaching students to meet the career-oriented goals.
Through structural analysis, the characteristics of career-
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oriented competence, we identify three characteristics of career- oriented competencies that need to be measured: Awareness of hobbies, interests, awareness apply relevant subject and career knowledge and career planning skills.
We have conducted a survey of the current situation of teaching and biology to develop students' career-oriented capacity in high schools. The survey results show that students are aware of the importance of career-oriented teaching, but the effectiveness of organizing teaching activities to guide careers for students is limited. The frequency of students participating in experiential learning activities, exploring and applying science and technology is provided with sufficient information about the field of occupation. Interest in the subject is not high, the proportion of students with career aspirations related to biology is low.
CHAPTER 2: ORGANIZATION OF TEACHING GRADE 10 BIOLOGY TO MEET THE TARGETING OF CAREER ORIENTATIONS.
2.1. Principles of organizing teaching Grade 10 Biology for career orientation Building and organizing career-oriented learning activities in teaching Grade 10 Biologyis a necessary job to improve the efficiency of career orientation for students but does not turn Biology lessons into vocational education lessons principles should be ensured: Ensuring the calculation of career-oriented goals and the requirements of the Biology program; Ensure systematic; Ensure practicality. 2.2. Structure of the grade 10 Biology program in the General Education Program 2018 2.2.1. Features of the High School Biology program
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2.2.2. Content structure of grade 10 Biology program Through the analysis of Biological content 10, it can be seen that the content circuits are deployed in the direction from the basic biological content, requiring students to apply it in real life, application in technological processes in the careers related to biology (food technology, medicine, agriculture, ...). This is a favorable opportunity to organize teaching with the goal of career orientation for students through this subject. 2.2.3. Career orientation in teaching Biology grade 10’s content topics 2.3. Design learning activities to orient career in teaching grade 10 Biology 2.3.1. The process of designing learning activities to guide students' career in teaching Biology 10
Figure 2.1. Process of designing learning activities
2.3.2. Illustrative example: topic Chemical composition of Cells 2.3.3. Learning activities aimed at career orientation
Based on the analysis of the Biological content structure 10 and the content of learning can deploy career-oriented teaching combined with the process of building learning activities and teaching practices, we build the Learning activities aimed at career orientation for students in part 3 Cell biology and part 4 Microbiology and viruses 2.4. Teaching Grade 10 Biologyto meet career-oriented goals 2.4.1. The process of organizing teaching Grade 10 Biology meets career- oriented goals
Teacher
Student
Step 1. Set objectives
Determine the objectives
Attract students to participate
Step 2. Discover students’ abilities and interests
Participate in learning activities, recognize your abilities and interests
Organizing activities of experience and discovery associated with career orientation
Explore career
Organizing activities to explore career , orienting and supporting students
Step 3. Apply knowledge in career
Support, orientation
Step 4. Career planning
Make your own career plan
Review and revise
Step 5. Review and revise
Organization for students self-assessment, peer evaluation and teacher evaluation
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Figure 2.6. Teaching and learning process for career orientation
2.4.4. The correlation between teaching organization process for career
orientation and career orientation development goal
2.5. Assessment of career-oriented competencies of students in
Step 1. Determine evaluation criteria and indicators of career orientation competence
Step 2. Determine the competency development path
Step 3. Develop a set of evaluation and data collection tools
Step 4. Analyze and process data using SPSS software
Step 5. Dicussion the results and conclusions
teaching grade 10 Biology
Figure 2.7. Assessment process of career orientation of students
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Set up evaluation criteria:
We develop a table of criteria to assess students' career orientation competencies with 4 levels from level 1 to level 4 respectively from low to high according to the development path of skills with 4 levels on the Dreyfus scale. At each level of the scale, we determine proficiency based on the levels achieved by the component skills. These criteria are based on reference from learning standards for career development of high school students in New York state (USA) (Learning Standards for Career Development and Occupational Studies, 2016) and suitable for research objectives of the topic.
Based on the skill evaluation criteria table, teachers will monitor the learning activities of each student group and each individual of each group.
To evaluate the proficiency of 3 component skills (A, B, C), we determine the behavioral expressions of each skill (A1, A2, B1, B2, ...). Each of these behavioral manifestations is assessed at 3 levels: No skill performance (M1) is available; There are operations that perform skills at a simple level, low results (M2), perform skills at the proficient and highly effective (M3) level. Develop a career-oriented competency assessment tool
Tools to assess students' career-oriented competencies include questions, exercises in tests after each teaching topic, observation slips of student behavior, attitudes, taking notes, and questionnaires.
Conclusion of chapter 2
Based on the analysis of the curriculum content of Grade 10 Biology(2018), identifying the contents of Grade 10 Biologythat can be implemented in career-oriented teaching and the general process of vocational education, we have proposed :
1. The process of designing career-oriented learning activities in teaching Students includes 3 steps: Identifying contents that can teach
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career orientation and goals to be achieved; Determine how to organize experiences and discover related content and career; Design specific activities. We have built 5 learning topics to implement career-oriented teaching.
2. The process of organizing teaching Grade 10 Biologymeets the career-oriented goals including 5 steps: 1) Determining goals, 2) Discovering your abilities and interests, 3) Discovering careers, 4) Career planning, 5) Assessment and adjustment.
skills of
3. Based on the structure of career-oriented competence and the requirements on knowledge and the Grade 10 Biologyprogram, we have built a set of criteria and identified a toolkit for evaluation. component skills of career-oriented competencies, which serve as a basis for assessing students' career-oriented competencies. The toolkit includes a set of questions, exercises, observation tables, questionnaires that fit the course curriculum objectives. We have also developed a career-oriented development pathway to serve as a basis for assessing the achievement level of career orientation competencies of each student in the experimental process of the project.
CHAPTER 3: PEDAGOGICAL EXPERIMENTS
3.1. Purpose of pedagogical experiment
Pedagogical experiment to test scientific hypotheses, feasibility and effectiveness of the teaching process of Biology and teaching methods and techniques to train students' ability to orient students according to the given topics design. 3.2. Experimental object
We conducted experiments on 319 students in 10th grade of 3 high schools: Experimental School ( The Vietnam Institue of Educational Sciences; Phuc Tho High School (Phuc Tho district, Hanoi); Thang Long High School (Hai Ba Trung, Hanoi). 3.3. Experimental method
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During the experiment, all 319 students of the 3 schools were organized to teach career orientation with a teaching plan. We tracked and assessed the indicators of 3 component skills of orientation competencies in students participating in experiments. On the other hand, we study the case through the monitoring of 9 students, making comments on the relationship between the level of biological knowledge development and the speed of developing career-oriented competencies in the learning process. . 3.4. Experimental results and discussion 3.4.1. Pre-test experimental results
The results of assessing the component skills of career orientation competence of 42 students are shown in Table 3.3. By analyzing the survey results, we found that we need to adjust the teaching process more appropriately to improve skills for students, need to integrate with more practical applications of life to increase interest in learning in the student. We designed 5 tests at experimental times to increase the reliability of the study. 3.4.2. Official experimental results 3.4.2.1. Assess the development of component skills of career-oriented competencies through tests
Assess the development of your cognitive skills and interests Through the continuous learning and training process throughout the school year, the number of students reaching level 3 increases gradually. The percentage of students achieving level 3 (skilled) in the second test was 12.4%, the third test was 25.1%, the fourth was 38.3%, the fifth was 48.8%. This shows that students' cognitive skills and interest in subjects have gradually increased through the stages of training.
The results of determining the sample statistical parameters are shown in Table 3.4. The results show that there is an increase in the mean value (mean) of the level of skills achieved by students through the tests from 1.12 at the 1st to 2.37 at the 5th test. the development of
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students' skills from level 1 to level 2 has gradually moved up to the level of skills and proficiency (level 3). This demonstrates that the impact measures are effective on the development of students' self- awareness skills. The standard deviation and the range of variation across tests are within the range of reliable fluctuations.
Test with hypothesis H0: There is no difference between tests of cognitive skills and interest in self-interest, H1: there is a difference between tests of hobbies and hobbies body, expressed as p-value (sig.) ≤ 0.05. Compare the p-value of the t-test determined at 0.05 (significance level 5% = 0.05, 95% confidence level).
Through observing the students' performance when performing learning tasks and interviewing students, the interest and interest in the subject were clearly shown. Thereby, it can be seen that the measures to organize experiential teaching activities, discovery teaching 5E have had positive effects on the interest and interest in the subject for students.
Assess the level achieved in the application of relevant subject
85.4
90
80
70
57.8
60
48.4
48.6 45.9
42.2
50
S H m ă r t
46.7 40.8
Mức 1
40
30.3
n ầ h p ệ
Mức 2
30
21.3
l ỉ
T
14.6
Mức 3
12.5
20
5.5
10
0
0
0
Kiểm tra 1 Kiểm tra 2 Kiểm tra 3 Kiểm tra 4 Kiểm tra 5
Lần kiểm tra
and career knowledge
Figure 3.2. Percentage of students achieving skill levels that apply relevant subject and career knowledge through tests
The results of determining the sample statistical parameters shown in Table 3.6 show an increase in the mean value (mean) of students' skill
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level achieved through tests from 1.14 at the time of the test. 1 to 2.39 on the 5th test. It shows that the skills development of students from low level (level 1, level 2) has gradually moved up to skill level (level 3). This shows that the impact measures are effective on the development of students' skills in applying subject and career knowledge.
80
75.2
70
60
58.5
50.5
50
45.2
S H m ă r t
47.1 42.4
40
Mức 1
34.4
34.3
n ẩ h p
33.2
30
Mức 2
ệ
l ỉ
24.8
T
20.5
20
Mức 3
15.1
10.5
10
8.3
0
0
Kiểm tra 1 Kiểm tra 2 Kiểm tra 3 Kiểm tra 4 Kiểm tra 5
Lần kiểm tra
Assess the development of career planning skills
Figure 3.3. Results level achieved on students' planning skills
through tests
We randomly selected 9 students to analyze the development of
career-oriented competencies through the training process on 5
empirical topics in, the results are shown in Figure 3.4. Test results
show that all students have an improvement in the level of expression
of career-oriented competence through the experimental process.
4.5
4
Trần Quang Huy
3.5
Nguyễn Gia Hưng
3
Nguyễn Vũ Minh Khuê
2.5
Nguyễn Duy Kiên
Nguyễn Tùng Lâm
2
Hoàng Lê Hà Linh
1.5
Phạm Thanh Thảo
1
Trần Bảo Lộc
0.5
Nguyễn Hồng Phúc
0
Chủ đề 1 Chủ đề 2 Chủ đề 3 Chủ đề 4 Chủ đề 5
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Figure 3.4. The degree to which students develop career- oriented competencies through empirical topics
3.4.2.2. The model of the impact of the method of organizing teaching
Grade 10 Biologyto the expression of career-oriented competence
We use the questionnaire to evaluate the expression of pre-
empirical and post-career career orientation competencies (section
2.2) based on the proposed research model (Figure 1.5) based on the
theoretical model. of Eccles (2009).
Analyze the results of student competency development
Discriptive Statistics results in table 3.10 and chart 3.6 show that
the average of the 3 component skills of career-oriented competencies
increased after the experiment. The average planning skill is 2.43, the
average self-interest and interest awareness skills are 2.4, the average
career-related skill is 2.49
3
2.55
2.49
2.43
2.4
2.5
1.97
1.97
) n a e M
(
2
1.6
ì
1.43
1.5
1
Trước thực nghiệm
0.5
i
h n b g n u r t ị r t á G
Sau thực nghiệm
0
Nguyện vọng nghề nghiệp
Lập kế hoạch về nghề nghiệp
Nhận thức sở thích, hứng thú của bản thân
Xác định mối liên quan giữa môn học và nghề nghiệp
Các nhân tố
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Figure 3.5. Comparison of expression of career orientation
competence before and after the experiment
Table 3.10. Mean, standard deviation (SD) of the factors
factors Before the experiment After the experiment SD Mean SD Mean
1.97 0.52 2.40 0.52
1.60 0.54 2.49 0.62
Recognize your hobbies and interests Determine the relationship between the subject and the career Career planning Self-Efficacy 1.97 1.61 0.81 0.62 2.43 2.51 0.78 0.61
1.08 0.33 2.50 0.49
1.43 1.91 1.60 0.63 0.51 0.59 2.55 2.61 2.32 0.60 0.50 0.63 Application of subject knowledge Career aspirations Experiential Learning 5E Inquiry learning model
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0.146
Student’s science interest
Experiential activities
0.257
0.276
0.266
0.044
0.188
Student’s career aspiration
Student’s ultility of science and career awareness
0.105
0.224
0.45
0.96
Student’s career planning
0.262
5E Inquiry Learning and teaching model
Impact model of career-oriented teaching
Diagram 3.1. Summary of the correlation between variables in the research model
The results of linear regression analysis show that there is a
positive impact of 'career-related experience teaching' to 'awareness of
applied subject and career knowledge', expressed in standard
coefficients. Standardized Coefficients are 0.276 and p-value <0.05.
The results also show a positive contribution of '5E Inquiry
teaching in applied science' to 'awareness of subject and career
knowledge application' and 'career planning', current at Standardized
Coefficients is 0.45 and 0.262 and p-value (sig.) <0.05.
The research results have shown the effectiveness of the teaching
organization process to guide students' career through organizing
career-related teaching and exploratory teaching based on the 5E
Inquiry Learning model about scientific applications.
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Conclusion of chapter 3
In order to verify the validity of the proposed scientific hypothesis,
we used the process of organizing career-oriented teaching and other
forms of teaching experience related to career and exploratory
teaching under the 5E model on the application of science through
classroom and home study topics.
Experimental process conducted on 319 high school students in
Hanoi. Results of empirical data processing are conducted through
quantitative and qualitative analysis of student learning products
(tests, reports), T-test in pairs between tests; analysis of student
questionnaire analysis (descriptive analysis, reliability analysis of
scales, correlation analysis, linear regression analysis) to determine
the relationship between factors in the proposed research model. based
on the theoretical model of Eccles career options. We focused on
monitoring and evaluating the career-oriented development of 9
students and initially drew certain differences in competence
development.
Through analysis of quantitative and qualitative results shows that,
before the experiment, most students have expressed competency at
level 1 or level 2 (low level). After the pedagogical impact of the
Grade 10 Biologyteaching process and measures aimed at career
orientation for students, the number of students reaching a higher level
has increased significantly. This result confirms the effectiveness of
the teaching process to guide students' careers in teaching Biology 10.
Students express interest, positiveness, self-reliance and creativity in
implementation. experiential learning tasks and career exploration.
Therefore, it can be confirmed that the scientific hypothesis of the
thesis is completely correct, feasible and effective.
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CONCLUSIONS AND RECOMMENDATIONS
1. Conclusions
1.1. The thesis has contributed to systematize the theoretical basis
of career-oriented teaching for high school students: an overview of
career-oriented competencies, the relationship between teaching
characteristics and expressions. of career-oriented competencies,
identifying three characteristics of career-oriented competencies that
need to be measured: Awareness of interests, interests of students,
application of subject and vocational knowledge. related businesses
and career planning skills.
1.2. Results of research on the situation of teaching Biology to
develop students' career-oriented capacity in high schools show that
teachers are aware of the importance of teaching towards career
orientation. but implementation is limited.
1.3. On the basis of analyzing the content of the Grade 10 Biology
curriculum and the general vocational education process, we have
proposed a process of designing career-oriented learning activities in
teaching 10-step students: Identify content that can teach career
orientation and goals to be achieved; Determine how to organize
experiences and discover related content and career; Design specific
activities and have built up 5 learning topics to implement career-
oriented teaching.
1.4. Based on the structure of career-oriented competencies, we
have proposed the process of organizing teaching Grade 10 Biology to
meet career-oriented goals including 5 steps: 1) Define goals, 2)
Explore possibilities skills and interests, 3) Applying knowledge in
career, 4) Career planning, 5) Assessment and adjustment.
24
1.5. From the structure of career-oriented competencies and the
need to gain knowledge and skills of the Grade 10 Biology program,
we have built a set of criteria and defined a toolkit to evaluate
component skills. of vocational orientation competencies, which is the
basis for assessing students' career orientation competence. The toolkit
includes a set of questions, exercises, observation tables,
questionnaires that fit the course curriculum objectives
1.6. The pedagogical experiment results show that the use of the
process of organizing career-oriented teaching and other forms of
teaching experience related to career and exploratory teaching under
the 5E model on scientific application through employers The topic of
study has a positive impact on the expression of students' career-
oriented competence, interest, interest in the subject, and biological
career aspirations. Therefore, it can be confirmed that the scientific
hypothesis of the thesis is completely correct, feasible and effective.
2. Recommendations
2.1. Continue to develop teaching topics of Grade 11 Biology,
Grade 12 Biology and apply the process of organizing career-oriented
teaching for high school students to develop career-oriented
competence, create so that you can identify future careers.
2.2. In order to meet the goals of career orientation under the
General Education Program 2018, educational management levels
need to promote the deployment of professional training for teachers,
on how to build teaching topics; positive teaching methods and
techniques and teaching organization process to guide students
'careers, the process of examining and assessing learners' competency
for teachers to meet teaching practice development competencies for
students.
PUBLICATIONS
1. Ho Thi Hong Van, Le Ngoc Hoan, Dinh Quang Bao, 2018, Effective science teaching approaches to teaching STEM career orientation of upper secondary school teachers: A case study in Vietnam”, Rangsit Journal of Educational Studies (RJES), Vol.6, No.4, December 2018. DOI: 10.5121/ije.2018.6401.
2. Ho Thi Hong Van, Le Ngoc Hoan, Dinh Quang Bao, 2018, Effect of teaching approaches in STEM career orientation for students through learning Biology in Vietnamese upper secondary schools”, International Journal of Education (IJE) Vol.6, No.4, December 2018.
3. Ho Thi Hong Van, Le Ngoc Hoan, Dinh Quang Bao, 2018, Effects of teaching approaches in Biology learning and teaching to high school students’ career orientation, HNUE Journal of Science, (Educational Sciences) Volume 63, Issue 9, pp. 3-13. DOI: 10.18173/2354-1075.2018-0163.
4. Ho Thi Hong Van, 2018, Organizing activities of teaching Grade 10 Biologytowards capacity development through project teaching at Experimental High School, Journal of Education & Society, No. 84 (145) March 2018. (in Vietnamese language)
5. Ho Thi Hong Van, Dinh Quang Bao, 2018, Overview of world research on career orientation for students through teaching subjects and applying them in teaching Biology in Vietnam, Journal Vietnam Education Science No. 09 - September 2018. (in Vietnamese language) 6. Ho Thi Hong Van, Le Ngoc Hoan, Dinh Quang Bao, 2019, Influence of experience teaching, project teaching, application of science and technology to career-oriented teaching through High School Biology Pine, Journal of Science, Number of Educational Sciences, Volume 64, Issue 9C, 2019 (in Vietnamese language).
7. Ho Thi Hong Van, Le Ngoc Hoan, Dinh Quang Bao, 2019, Effect of 5E Inquiry Learning Model to STEM career orientation for upper secondary school students through teaching and learning Biology, International Conference on Innovation in Learning Instruction and Teacher Education – ILITE.
