Electric Vehicles and Mobility Course Syllabus
Full curriculum breakdown — modules, lessons, estimated time, and outcomes.
Overview: This beginner-friendly course offers a comprehensive introduction to electric vehicles and their role in sustainable mobility. Over five modules, learners will explore the technology, infrastructure, environmental impact, and future of electric transportation. With a balanced mix of video lessons, data analysis, and case studies, the course requires approximately 20-25 hours of learning, spread across five weeks. No prior technical background is needed, making it ideal for anyone interested in the future of transportation.
Module 1: Introduction to Electric Cars
Estimated time: 5 hours
- Global EV trends and market adoption
- Key concepts in electric mobility
- Comparison with internal combustion engine vehicles
- Overview of electric vehicle types
Module 2: EV Technology and Performance
Estimated time: 5 hours
- Components of electric cars
- Energy efficiency in electric drivetrains
- Performance metrics of EVs vs. conventional vehicles
- Drivetrain systems and motor types
Module 3: Energy Sources and Charging
Estimated time: 5 hours
- Battery types and energy storage technologies
- Charging infrastructure and standards
- Smart grid integration
- Electricity usage and charging scenarios
Module 4: Environmental and Economic Aspects
Estimated time: 5 hours
- Life cycle emissions of electric vehicles
- Cost of ownership and economic benefits
- Government subsidies and policy incentives
- Case studies on carbon footprint and market adoption
Module 5: Future of Electric Mobility
Estimated time: 5 hours
- Urban mobility and transportation planning
- Autonomous electric vehicles
- Integration with renewable energy systems
- Future trends in EV deployment
Module 6: Final Project
Estimated time: 5 hours
- Develop an EV deployment strategy
- Analyze real-world charging and usage data
- Submit a report on sustainability and feasibility
Prerequisites
- Basic understanding of science and technology concepts
- No prior engineering or technical background required
- Interest in sustainability and future transportation
What You'll Be Able to Do After
- Explain how electric vehicles work and how they differ from conventional cars
- Analyze the environmental and economic impacts of EV adoption
- Understand battery technology and charging infrastructure
- Evaluate policy and market factors influencing electric mobility
- Propose strategies for integrating EVs into future transportation systems