Alternative Energy for Electric Vehicles

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Alternative Energy for Electric Vehicles
Published 4/2025
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Language: English | Duration: 2h 21m | Size: 848 MB

Drive the Future: Powering EVs with Clean, Green Energy

What you'll learn
Learn how EVs work, their types, and how they differ from conventional internal combustion engine vehicles.
Gain knowledge about solar, wind, hydro, and bioenergy, and how they can be harnessed to power EVs.
Study different battery technologies and storage solutions used in EVs, especially in combination with alternative energy.
Understand how to design systems where alternative sources directly or indirectly charge EVs.
ssess the carbon footprint, lifecycle analysis, and overall sustainability of using alternative energy for EVs.

Requirements
Familiarity with fundamental concepts in physics and chemistry can aid in grasping topics related to energy generation and storage.
While not mandatory, having a basic knowledge of electric vehicle components and operations can enhance comprehension.

Description
Step into the future of clean transportation with Alternative Energy for Electric Vehicles! This course is your gateway to understanding how green energy sources like solar, wind, and bioenergy are revolutionizing the electric vehicle (EV) landscape.Whether you're a student, engineer, sustainability enthusiast, or just curious about the eco-friendly tech behind EVs, this course breaks down complex energy systems into easy-to-understand concepts. You'll explore how alternative energy powers vehicles, how storage systems like batteries and supercapacitors come into play, and what it takes to create a sustainable energy infrastructure for electric mobility.Packed with real-world examples, technical insights, and future-forward ideas, this course will give you the tools and knowledge to drive innovation in the EV and renewable energy space.This course explores alternative technologies for electric vehicles (EVs) beyond traditional lithium-ion batteries, covering innovations like solid-state batteries, hydrogen fuel cells, supercapacitors, and metal-air batteries. Students will analyze the advantages, challenges, and future potential of these solutions, gaining insights into their feasibility, environmental impact, and commercialization status. Designed for engineers, entrepreneurs, researchers, and EV enthusiasts, the course combines expert-led video lectures, case studies, and interactive discussions to provide a comprehensive understanding of next-generation energy storage and propulsion systems shaping the future of sustainable transportation.

Who this course is for
Particularly those in electrical, mechanical, energy, or environmental engineering, who want to understand the intersection of renewable energy and electric vehicle technology.
Anyone passionate about electric vehicles and curious about powering them with sustainable energy sources.
Individuals working in EV manufacturing, renewable energy companies, or energy policy roles looking to expand their knowledge in this growing field.
Teachers, professors, or trainers in the fields of green technology, sustainability, or transportation systems.
People committed to reducing carbon footprints and promoting clean energy solutions.
Start-up founders or business-minded individuals interested in renewable energy applications, electric mobility, or green infrastructure.

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RapidGator

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