Difference between revisions of "TCOL Science Course Oct2020"
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| − | Integrating digital technologies in teaching-learning Physics | + | == Integrating digital technologies in teaching-learning Physics == |
| − | Why this course? | + | |
| + | === Why this course? === | ||
With the pandemic continuing its march, schools are yet to resume normal classes. While different states have been experimenting with face-to-face interactions, these are yet to become regular and are not adequate to meet the academic requirements for high school students, especially for students who face challenges in accessing online education. | With the pandemic continuing its march, schools are yet to resume normal classes. While different states have been experimenting with face-to-face interactions, these are yet to become regular and are not adequate to meet the academic requirements for high school students, especially for students who face challenges in accessing online education. | ||
| + | |||
To address this challenge, therefore, it is necessary for schools to adopt methods and processes, which will support the students’ learning. These processes must consider challenges of students’ learning levels, gaps in their understanding and their difficulties with language which impacts their reading, understanding and expression. | To address this challenge, therefore, it is necessary for schools to adopt methods and processes, which will support the students’ learning. These processes must consider challenges of students’ learning levels, gaps in their understanding and their difficulties with language which impacts their reading, understanding and expression. | ||
| + | |||
Digitally enabled teaching learning processes can be one such solution. Amongst school subjects, Physics is often seen as the most challenging by students, and teachers have to often struggle to help students to overcome their diffidence and build conceptual understanding. Digital tools with their multiple possibilities for supporting visualization, simulation, verifying complex mathematical relationships that represent several phenomena in physics and model building would be a very useful addition to the teaching-learning kit of Physics teachers. | Digitally enabled teaching learning processes can be one such solution. Amongst school subjects, Physics is often seen as the most challenging by students, and teachers have to often struggle to help students to overcome their diffidence and build conceptual understanding. Digital tools with their multiple possibilities for supporting visualization, simulation, verifying complex mathematical relationships that represent several phenomena in physics and model building would be a very useful addition to the teaching-learning kit of Physics teachers. | ||
| + | |||
This course has been developed to support the capacity building of physical science teachers in the use of different digital tools and applications in the teaching-learning of Physics. | This course has been developed to support the capacity building of physical science teachers in the use of different digital tools and applications in the teaching-learning of Physics. | ||
| − | Course objectives | + | |
| − | + | === Course objectives === | |
| − | + | # To collaboratively develop lesson plans for select topics in Physics for class 9 and 10 students using different digital tools | |
| − | + | # To create learning materials for self-learning to be used along with physical and hands-on activities for different topics in Physics | |
| − | + | # To introduce teachers to the possibilities of formative assessments using digital tools | |
| − | Course | + | # To develop a model for delivering digital lessons for under-resourced learning contexts |
| − | + | ||
| − | + | === Course curriculum === | |
| − | + | # Key conceptual areas from Class 9 and 10 physics and chemistry | |
| − | + | # Development of lesson plans and identification of appropriate resources | |
| − | Course | + | # Developing a personal digital library of different on-line and off-line resources for teaching physical sciences |
| − | + | # Introduction to using a course platform along with resources | |
| − | + | ||
| − | + | === Course structure === | |
| − | + | # Fully online certificate course through a Learning Management System | |
| − | + | # Course duration 4 weeks | |
| − | + | # Each week will have 2 webinars of 90 minutes each, followed by hands-on activities and discussions on the course forum. | |
| − | + | # Each webinar will involve demonstration and transaction of a lesson using multiple resources | |
| − | Course registration | + | # Each participating teacher can mentor a group of students in parallel and pilot the lessons and resources accessed in the course |
| − | Interested teachers can register for the course on https://tinyurl.com/tcol-science on or before October 9, 2020. A registration fee of Rs. 500 is required from each teacher. It will be refunded on successful completion of the course. If you have any questions, | + | # Certificates will be awarded based on successful completion of course; criteria for completion include webinar attendance, assignments submission and participation in the course forum |
| + | # Estimated time requirement – 3-5 hours, per week, excluding webinars | ||
| + | # Course start date : October 12, 2020 | ||
| + | |||
| + | === Course registration === | ||
| + | Interested teachers can register for the course on https://tinyurl.com/tcol-science on or before October 9, 2020. A registration fee of Rs. 500 is required from each teacher. It will be refunded on successful completion of the course. If you have any questions, whatsapp 9845437730. | ||
| + | |||
| + | [[Category:Courses]] | ||
| + | [[Category:Science]] | ||
Latest revision as of 14:13, 3 October 2020
Integrating digital technologies in teaching-learning Physics
Why this course?
With the pandemic continuing its march, schools are yet to resume normal classes. While different states have been experimenting with face-to-face interactions, these are yet to become regular and are not adequate to meet the academic requirements for high school students, especially for students who face challenges in accessing online education.
To address this challenge, therefore, it is necessary for schools to adopt methods and processes, which will support the students’ learning. These processes must consider challenges of students’ learning levels, gaps in their understanding and their difficulties with language which impacts their reading, understanding and expression.
Digitally enabled teaching learning processes can be one such solution. Amongst school subjects, Physics is often seen as the most challenging by students, and teachers have to often struggle to help students to overcome their diffidence and build conceptual understanding. Digital tools with their multiple possibilities for supporting visualization, simulation, verifying complex mathematical relationships that represent several phenomena in physics and model building would be a very useful addition to the teaching-learning kit of Physics teachers.
This course has been developed to support the capacity building of physical science teachers in the use of different digital tools and applications in the teaching-learning of Physics.
Course objectives
- To collaboratively develop lesson plans for select topics in Physics for class 9 and 10 students using different digital tools
- To create learning materials for self-learning to be used along with physical and hands-on activities for different topics in Physics
- To introduce teachers to the possibilities of formative assessments using digital tools
- To develop a model for delivering digital lessons for under-resourced learning contexts
Course curriculum
- Key conceptual areas from Class 9 and 10 physics and chemistry
- Development of lesson plans and identification of appropriate resources
- Developing a personal digital library of different on-line and off-line resources for teaching physical sciences
- Introduction to using a course platform along with resources
Course structure
- Fully online certificate course through a Learning Management System
- Course duration 4 weeks
- Each week will have 2 webinars of 90 minutes each, followed by hands-on activities and discussions on the course forum.
- Each webinar will involve demonstration and transaction of a lesson using multiple resources
- Each participating teacher can mentor a group of students in parallel and pilot the lessons and resources accessed in the course
- Certificates will be awarded based on successful completion of course; criteria for completion include webinar attendance, assignments submission and participation in the course forum
- Estimated time requirement – 3-5 hours, per week, excluding webinars
- Course start date : October 12, 2020
Course registration
Interested teachers can register for the course on https://tinyurl.com/tcol-science on or before October 9, 2020. A registration fee of Rs. 500 is required from each teacher. It will be refunded on successful completion of the course. If you have any questions, whatsapp 9845437730.