In: Economics
Most countries and societies tend to focus on science, technology, engineering and math education, or STEM or STEAM. Where those thought to believe that it will help improve the results of the outputs of the four disciplines: science, technology, engineering and mathematics. STEAM / STEM is interested in international organizations seeking to develop their human resources in the areas of specialization that support innovation and competitiveness, unaware that vocational and technical education is an important part of the Education, Science, Technology, Engineering and Mathematics (STEM) goals set by the Ministry of Education.
. We know that technical learning is the most important catalyst for the success of STEM. The gap between the two programs reduces access to future plans. The integration between STEM and CTE is the result of a reciprocal relationship between them. Science plays the role of scientific knowledge, Professionalism is the basic practical application of knowledge, so the link between them is close and mutual. The role of science can not be overlooked in influencing mankind and the progress of societies, and the role of technology in driving the movement of science and activating and integrating knowledge can not be overlooked. Despite the efforts made in the preparation of the steam programs, the classrooms continued to practice the traditional method of conservation and memorization, conducting traditional experiments to prove facts, while neglecting the applied side of science and knowledge. To connect theoretical learning with cte- cation, students are taught to experiment, analyze and attempt to solve the problem. To help enrich knowledge, to develop knowledge and understanding of the natural world, to apply appropriate science processes, decision-making ability, and to cultivate a scientifically educated person. To enable learners to understand engineering and scientific practices , Interlocking concepts and basic ideas. This requires the processing of learning environments in the context of the real world, so that students enjoy workshops and educational projects, and have access to comprehensive and in-depth knowledge of scientific topics and issues. Which reflect the nature of science, away from isolated theoretical concepts.
. We know that technical learning is the most important catalyst for the success of STEM. The gap between the two programs reduces access to future plans. The integration between STEM and CTE is the result of a reciprocal relationship between them. Science plays the role of scientific knowledge, Professionalism is the basic practical application of knowledge, so the link between them is close and mutual. The role of science can not be overlooked in influencing mankind and the progress of societies, and the role of technology in driving the movement of science and activating and integrating knowledge can not be overlooked. Despite the efforts made in the preparation of the steam programs, the classrooms continued to practice the traditional method of conservation and memorization, conducting traditional experiments to prove facts, while neglecting the applied side of science and knowledge. To connect theoretical learning with cte- cation, students are taught to experiment, analyze and attempt to solve the problem. To help enrich knowledge, to develop knowledge and understanding of the natural world, to apply appropriate science processes, decision-making ability, and to cultivate a scientifically educated person. To enable learners to understand engineering and scientific practices , Interlocking concepts and basic ideas. This requires the processing of learning environments in the context of the real world, so that students enjoy workshops and educational projects, and have access to comprehensive and in-depth knowledge of scientific topics and issues. Which reflect the nature of science, away from isolated theoretical concepts..
The gap between both programs reduces access to future plans. The integration of (STEM) and (CTE) is the product of a mutual nature relationship between them, science represents the scientific knowledge that has a human and technical knowledge is the practical application of knowledge, so the link between them is a document and is a mutual. The role of science can not be deducted in the influence of humanity and the communities. The role of technology in pushing the movement of science, activation and integration of knowledge can not be deducted. Despite efforts in preparation of the (STEAM ), the study rooms still practicing the traditional method of depending on the conservation, inventory and conducting traditional trials to prove fact, neglecting the applied side of the science and knowledge. The link between STEAM snd CTE help students to test and the observe the knowledge of the experience of the world of real world, the application of the learning of the learning worlds, the entire learning and educational projects. The students of the learning of the world of the real world, which can be acquired to know the knowledge of the world of real world, so that students see work in the work of the real world,
CTE requires providing and creating a learning environment in a way that helps learners to enjoy and engage in internal and external workshops that enable them to develop their knowledge and skills in a way that enables them to understand and absorb science in a convenient, easy and enjoyable way, through classroom and extracurricular learning classes.
CTE education is based on several pillars:
* Learning is a constructive and open process.
* Motives and beliefs are an integral part of perception.
* Social interaction is essential to cognitive development.
• Learning is based on knowledge, strategies and contextual experiences.
The curriculum, activities and teaching strategies of CTE should be designed in an innovative scientific way to help students understand the different science keys in a convenient, easy and interactive way that is integrated and open to the environment and in the context of the learner's current knowledge and skills. To change from the traditional approach to the integrated approach, there are three main axes:
First: change the method of teaching to match what is taught in the classroom with what actually happens in the outside world.
Scientific education faces the danger of school education that does not provide science in the form of expertise, does not promote inquiry and discovery, can not understand scientific material, and does not enhance the in-depth understanding of human experience. And that it is still characterized by stagnation, boredom, and difficulty, and avoids the study of most students, especially in the secondary stage, for the following reasons:
* The vast amount of information and educational status in which the teacher acts as the carrier of information without providing opportunities for questions, dialogue and discovery of the student.
* Focus on memorizing, memorizing information and responding in advance.
* Loss of pleasure and suspense and desire to research, and adventurous in experimentation and scientific verification.
* Distance from linking education to the social content of students, and their daily lives.
Given the needs of education in the 21st century, the actual needs of learning must be met by:
Focus on investigative and discovery skills.
* Dependence on analysis and reflection.
* Composition of hypotheses and scientific experimentation.
* Issuing a judgment based on the Guide.
* Indulge in question and wonder.
* Indulge in meaning rather than knowledge.
* Indulge in search and discovery.
* Indulgence in cooperation, not competition.
* Achieve joint collective action, not independence.
* Achieving trust, not fear.
Second: change the way of teaching in the school so that students become immersed in scientific knowledge, skills, and mental habits, to carry out the practice of science and research, and investigation, and solve creative problems, and scientific thinking.
Designing the CTE curriculum requires the following expertise to be included:
* An integrated curriculum based on concepts
* Survey based on problem solving, technology utilization.
* Practical application, exploration and self-directed scientific inquiry and the exercise of research activities.
* Calendar based on performance, realistic, continuous, and multidimensional.
Third: change the vision, the goals of education so that seek to achieve the understanding of technical learning by all people, not only for a particular class.
CTE education involves not only teaching these disciplines and subjects to a group of students but also changing the concept of a multidisciplinary approach. It also recognizes the strong link between CTE education and areas requiring creativity and innovation. This requires a learning environment in a way that helps learners to enjoy and engage in workshops that integrate science and enable them to develop their knowledge and skills so that they can understand science in a convenient, easy and enjoyable way. Its educational stages, and through classroom classes and extracurricular learning.
We know that technical leaming is the most important catalyst for the success of STEM. The gap between the two programs reduces access to future plans. The integration between STEM and CTE is ff e result of a reciprocal relationship between them. Science plays the role of scientific knowledge. Professionalism is the basic practical application of knowledge, so Me link between them Is close and mutual.
Most countrie a. societies tend to focus on scisence, technology,
engineering antlmath education, or STEM or STEAM.
Where those thought to believe that it will help improve the
resitlts of the outputs of the four disciplines: science,
technology, engineering and mathematics.
STEAM/STEM W interested in intemational organizations seeking to
develop their human resources in the areas of specialization that
support innovation a. competitiveness, unaware that vocational and
technical education is an Important partsart of the Education,
Siene, Technology, Engineering a. Mathematics (STEM) goals set by
the Ministry of Education.
understand engineering and rylentilic practices, Intedocking
concepts a. basic Ideas. This requires. processing of leaming
environments n the context of the real world, so that students
enjoys workshops and educational projects and have access to
comprehensive and in-depth knowledge of scientific topics and
issues. Which reflect the nature of science, away from isolated
theoretical co ceptz.
We know that technical learning is the most important catalyst for
the success of STEM. The gap lo,ween the two programs reduces
access M future plans.Professionalism is the basic practical
application of knowledge, so the link between Mem is close and
mutual.
The role of science can not be overlooked in influencing mankind
and Me progress of societies, a.
the role of technology In driving the movement of science a.
activating and integrating knowledge cannot be overlooked.
To connect theoretical learning with CTE cation, students are taught m experiment, &Mgze a. attempt to solve the problem. To help enrich knowledge, to develop knowledge antl understanding of .e natural wore, to apply appropriate science processes, decision-making ability, and to cultivate a scientrfically educated person. To enable learners. understand engine.ng and scientific practices, Interlocking conceprt antl basic ideas.
This requires the processing of lea ming environments i n the
context of the real old, so Mat students enjoys workshops and
educational projects and have access to comprehensive and in-depth
knowledge of scientific topics and issues. Which reflect the nature
of science, away from isolated theoretical co ceps.
The gap between both programs reduces access to future plans.
The Integration of (STEM) a. (CTE) is the product of a mutual
nature relationship between them, science represents the scientific
knowledge that has a human and technical knowledge is the practical
aPPlication of knowledge, so the link between them is a document
antl is a mutual.
The link between STEAM and CTE help students to test and help to
observe the knowledge of the experience of the world of a real
world, the application of the leaming of the leaming worlds, the
entire learning and educational projects.
The students of the learning of the world of the real world, which
can be acquired to know the knowledge of the world of a real world,
so that students sees work in the work of the real world.
The students Of Ole learning of Me world of the real world, which
can be acquired to know the knowledge of the world a real world, so
that s.derrt sees work in M work of the real world.
CTE education is based on several pillars:
f Learning is a constructive antl open process. e Motives antl
beliefs are an integral Part of perception. Social interaction is
essential to cognitive development. f Learning is based on
knowledge, strategies and contextual experiences.
The current., activities antl teaching strategies of CTE should be
designed in an Innovative scientific way to help students
understand the different science keys in a convenient, easy and
interactive way that is integrated antl open to Me environment and
in the context of the learner's current knowledge and skills.
To change from the traditional approach to the integrated
approach,
there are three main
axes:
First:
change
the method of teaching matching what is taught in the classroom
with what actually happens in the outside world.
Scientific education faces the danger of school education Mat does
not provide science in the form of expertise, does not promote
inquiry antl discovery, cannot understand scientific material, and
does not enhance the in-depth understanding of human experience.
And that it is still characterized by stagnation, boredom. antl
difficulty. and avoids the study of most students, especially in
the secondary stage, for the following reasons:
The vast amount of information antl educational status in which the
reacher
acts as
Me carrier of information without providing opportunities for
questions, dialogue and discovery of the student.
Focus on memorizing, memorizing information and responding in
advance.
Loss of pleasure antl suspense and desire to resear h. and
adventurous in expeHmentation and scientific verification,
* Distance from linking education to the social content of students
and their daily lives.
Given the needs of education In the 21st century, the actual needs
of learning must be met by: Focus on investigative and discovery
skills. Dependence on analysis and reflection.
*Composition of hypotheses antl scientific experimentation. ...suing a judgment based on the Guide. * Indulge in question and wonder. * Indulge in meaning rather than knowledge. * Indulge In search a. discovery. * Indulgence in cooperation, not competition. *Achleve joint collective action, not Independence. ...eying trust, not fear.
Second:
change the way of teaching in Me school so that students become
immersed in scientific knowledge, skills and mental habits, to
carry out the practice of science and research, antl investigation,
and solve creative problems antl scientific thinking.
Designing the GTE curriculum requires the following expertlse to be
Incl..: An integrated curriculum based on concepts *Survey based on
problem solving, technology utilization. * Practical application,
exploration and seladlrected scientific inquiry and the exercise of
research activities. *Calendar based on performance, realistic,
continuous, and multidimensional.
Third:
change the vision, the goals of education so that Seek to achieve
the understanding of technical learning by all people, not only for
a particular class.
CIE education involves not only reaching these disciplines antl
subjects to a group of students but also changing the concept of a
multidisciplinary approach. It also recognizes the strong link
between CIE education and areas requiring creativity a.
innovation.
This requires a learning environment in a way that he,. ie... to
enjoy and engage in workshops that integrate sclence and enable
them to develop their knowledge antl skills so that they can
understand science In a convenient, easy and enjoyable way. Its
educational stages, and through cla.room classes antl
extracurricular learning.