chemical processes
The relevant chemical processes used in manufacture, such as purification, seperation, emulgation and dispergation processing.
Chemistry teachers at secondary schools provide education to students, commonly children and young adults, in a secondary school setting. They are usually subject teachers, specialised and instructing in their own field of study, chemistry. They prepare lesson plans and materials, monitor the students' progress, assist individually when necessary, and evaluate the students' knowledge and performance on the subject of chemistry through assignments, tests and examinations.
No competences in this bucket.
The relevant chemical processes used in manufacture, such as purification, seperation, emulgation and dispergation processing.
The techniques that instructors use to deliver lessons. The aim of these strategies is to make students become more involved in the learning process.
The inner workings of a post-secondary school, such as the structure of the relevant education support and management, the policies, and the regulations.
The composition, structure, and properties of substances and the processes and transformations that they undergo; the uses of different chemicals and their interactions, production techniques, risk factors, and disposal methods.
The goals identified in curricula and defined learning outcomes.
Techniques applied in the different fields of natural science in order to obtain experimental data such as gravimetric analysis, gas chromatography, electronic or thermic methods.
The learning disorders some students face in an academic context, especially Specific Learning Difficulties such as dyslexia, dyscalculia, and concentration deficit disorders.
The inner workings of a secondary school, such as the structure of the relevant education support and management, the policies, and the regulations.
No competences in this bucket.
Provide additional exercises and assignments that the students will prepare at home, explain them in a clear way, and determine the deadline and evaluation method.
Instruct students in the theory and practice of chemistry, more specifically in biochemistry, chemical laws, analytical chemistry, inorganic chemistry, organic chemistry, nuclear chemistry, and theoretical chemistry.
Identify the learning struggles and successes of students. Select teaching and learning strategies that support students’ individual learning needs and goals.
Ensure that the content, methods, materials and the general learning experience is inclusive for all students and takes into account the expectations and experiences of learners from diverse cultural backgrounds. Explore individual and social stereotypes and develop cross-cultural teaching strategies.
Employ various approaches, learning styles, and channels to instruct students, such as communicating content in terms they can understand, organising talking points for clarity, and repeating arguments when necessary. Use a wide range of teaching devices and methodologies appropriate to the class content, the learners' level, goals, and priorities.
Evaluate the students' (academic) progress, achievements, course knowledge and skills through assignments, tests, and examinations. Diagnose their needs and track their progress, strengths, and weaknesses. Formulate a summative statement of the goals the student achieved.
Support and coach students in their work, give learners practical support and encouragement.
Write, select or recommend a syllabus of learning material for the students enrolled in the course.
Present to others examples of your experience, skills, and competences that are appropriate to specific learning content to help students in their learning.
Research and establish an outline of the course to be taught and calculate a time frame for the instructional plan in accordance with school regulations and curriculum objectives.
Provide founded feedback through both criticism and praise in a respectful, clear, and consistent manner. Highlight achievements as well as mistakes and set up methods of formative assessment to evaluate work.
Ensure all students falling under an instructor or other person’s supervision are safe and accounted for. Follow safety precautions in the learning situation.
Communicate with the school staff such as teachers, teaching assistants, academic advisors, and the principal on issues relating to students' well-being. In the context of a university, liaise with the technical and research staff to discuss research projects and courses-related matters.
Communicate with education management, such as the school principal and board members, and with the education support team such as the teaching assistant, school counsellor or academic advisor on issues relating the students' well-being.
Make sure students follow the rules and code of behaviour established in the school and take the appropriate measures in case of violation or misbehaviour.
Manage the relations between students and between student and teacher. Act as a just authority and create an environment of trust and stability.
Keep up with new research, regulations, and other significant changes, labour market related or otherwise, occurring within the field of specialisation.
Supervise the student's social behaviour to discover anything unusual. Help solve any issues if necessary.
Maintain discipline and engage students during instruction.
Prepare content to be taught in class in accordance with curriculum objectives by drafting exercises, researching up-to-date examples etc.
No competences in this bucket.
No competences in this bucket.
The social dynamics through which young adults live amongst each other, expressing their likes and dislikes and the rules of communication between generations.
The nature and types of disabilities affecting the human beings such as physical, cognitive, mental, sensory, emotional or developmental and the specific needs and access requirements of disabled people.
Laboratory based sciences such as biology, chemistry, physics, integrated science or advanced laboratory science.
The natural science involving the study of matter, motion, energy, force and related notions.
The negative effects of chemicals on living organisms, their dose and exposure.
No competences in this bucket.
Encourage students to cooperate with others in their learning by working in teams, for example through group activities.
Recognise correlations and overlaps between your subject of expertise and other subjects. Decide on a levelled approach to the material with the teacher of the associated subject and adjust lesson plans accordingly.
Identify the necessary resources needed for learning purposes, such as materials in class or arranged transportation for a field trip. Apply for the corresponding budget and follow up on the orders.
Set up joined and individual meetings with students' parents to discuss their child's academic progress and general well-being.
Provide assistance in the planning and organisation of school events, such as the school's open house day, a sports game or a talent show.
Provide assistance to students when working with (technical) equipment used in practice-based lessons and solve operational problems when necessary.
Communicate with multiple parties, including teachers and the family of the student, to discuss the student's behaviour or academic performance.
Accompany students on an educational trip outside the school environment and ensure their safety and cooperation.
Observe and detect symptoms of Specific Learning Difficulties such as attention deficit hyperactivity disorder (ADHD), dyscalculia, and dysgraphia in children or adult learners. Refer the student to the correct specialised educational expert if necessary.
Keep track of the pupils who are absent by recording their names on a list of absentees.
Monitor the changes in educational policies, methodologies and research by reviewing relevant literature and liaising with education officials and institutions.
Supervise and potentially organise educational or recreational activities for the students outside of mandatory classes.
Carry out tests in a laboratory to produce reliable and precise data to support scientific research and product testing.
Observe students' recreational activities to ensure student safety and well-being and intervene when necessary.
Work with children and young people to identify the skills and abilities they will need for their transition to become independent and self-sufficient adults.
Ensure that the necessary materials for teaching a class, such as visual aids, are prepared, up-to-date, and present in the instruction space.
Observe students during instruction and identify signs of exceptionally high intelligence in a student, such as showing remarkable intellectual curiosity or showing restlessness due to boredom and or feelings of not being challenged.
Supervise the staff working in a laboratory, as well as oversee that equipment is functional and maintained, and procedures occur in compliance with regulations and legislation.
Incorporate the use of online learning environments and platforms into the process of instruction.