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Arunachala Nadar Mada Kannan

Batteries and Electric Vehicles: This course will focus on aspects of battery performance in zero emission vehicles, EV charger networks and second life applications of EV batteries, and standards and regulatory requirements.

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What's inside

Syllabus

Course Introduction
Module 1: Batteries in Various Application Modes
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Module 2: Performance and Reliability of EV Batteries, Range Anxiety
Module 3: Futuristic EV Batteries
Module 4: Second Life and Recycling of EV Batteries

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Touted as being focused on aspects of battery performance in zero emission vehicles
Discusses EV charger networks and second life applications of EV batteries
Examines standards and regulatory requirements for EV batteries

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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Batteries and Electric Vehicles with these activities:
Review basic chemistry concepts
A strong understanding of chemistry will greatly benefit your learning experience in this course.
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  • Review your notes or textbooks from previous chemistry courses.
  • Take practice quizzes or problems to test your understanding.
  • Identify any areas where you need additional support and seek help from a tutor or online resources.
Brush up on data analysis techniques
Data analysis skills are essential for evaluating battery performance and making informed decisions.
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  • Review your notes or textbooks from previous data analysis courses.
  • Complete online tutorials or practice exercises to refresh your skills.
  • Apply these techniques to analyze battery data and identify trends or patterns.
Review the Basics of Battery Performance
Review the underlying principles of battery performance to strengthen your understanding of the course material.
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  • Revisit introductory textbooks on battery science.
  • Attend online lectures or workshops on battery fundamentals.
  • Take practice quizzes or tests.
Nine other activities
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Review texts on batteries
Books and technical texts provide valuable insights into topics covered in this course and help you build foundational skills.
Show steps
  • Acquire the book and mark important sections.
  • Read the book thoroughly, taking notes as you go.
  • Summarize the main points of each chapter.
  • Review your notes and identify any areas that need further study.
Review Basics of Electrochemical Cells
Reviewing basics of electrochemical cells provides context for EV battery applications covered in this course.
Show steps
  • Read an overview of electrochemical cells
  • Review terminology and concepts
  • Complete practice calculations
Connect with Experts in the Field
Seek guidance from professionals in the field of electric vehicles and battery technology to gain insights and expand your knowledge.
Show steps
  • Attend industry conferences or webinars.
  • Reach out to researchers or engineers in the field through LinkedIn or email.
EV Battery Review and Research Compilation
Gather and organize a comprehensive collection of resources on EV battery performance, different types of batteries, and applications. This will help consolidate knowledge and provide easy reference materials for future use.
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  • Identify and gather online articles, research papers, and industry reports on EV battery performance.
  • Compile information on different types of EV batteries, including their advantages and limitations.
  • Research and document the applications of EV batteries in electric vehicles, grid storage, and other industries.
Solve practice problems on battery performance
Solving practice problems helps you apply the concepts and improve your understanding of battery performance.
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Show steps
  • Find practice problems from textbooks or online sources.
  • Attempt to solve the problems on your own.
  • Check your answers and identify any areas where you need improvement.
Join a study group or online forum
Engaging with peers can facilitate knowledge sharing and deeper understanding of the topics.
Show steps
  • Find a study partner or group that aligns with your learning style.
  • Meet regularly to discuss the course material and work on problems together.
  • Participate in online forums or discussion boards to connect with other learners and experts in the field.
Solve EV Battery Range Anxiety Calculations
Enhance understanding of range anxiety calculations and their influence on EV design.
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  • Identify factors affecting EV range
  • Practice solving range equations
  • Review case studies (optional)
Design an EV Charging Station Network
Apply course concepts to a real-world project, strengthening understanding of EV charging infrastructure.
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Show steps
  • Research charging technologies and standards
  • Identify potential site locations
  • Design the charging station layout
  • Estimate costs and project timeline
Volunteer as a tutor or mentor
Mentoring others reinforces your understanding of the concepts and strengthens your communication skills.
Show steps
  • Identify opportunities to tutor or mentor students in battery-related fields.
  • Develop lesson plans and materials to support your mentees' learning.
  • Provide guidance and support to your mentees, answering their questions and helping them overcome challenges.

Career center

Learners who complete Batteries and Electric Vehicles will develop knowledge and skills that may be useful to these careers:
Battery Design Engineer
The course covers performance and reliability of EV batteries, battery standards and regulatory requirements, futuristic batteries, second life and recycling of EV batteries. This course may be useful for someone interested in battery design.
Battery Developer
Batteries and Electric Vehicles covers aspects of battery performance in zero emission vehicles and second life applications of EV batteries. This course may be useful for someone interested in battery development.
Automotive Engineer - Electric Vehicles
This course covers aspects of battery performance in zero emission vehicles and second life applications of EV batteries. This course may be useful for an engineer interested in automotive engineering for electric vehicles.
Electric Vehicle Charging Infrastructure Engineer
This course covers aspects of battery performance in zero emission vehicles, EV charger networks, futuristic EV batteries, and second life and recycling of EV batteries. This course may be useful for someone interested in designing charging infrastructure for electric vehicles.
Mechanical Engineer - Electric Vehicles
This course covers aspects of battery performance in zero emission vehicles and second life applications of EV batteries. This course may be useful for a mechanical engineer interested in working on electric vehicles.
Electrical Engineer - Electric Vehicles
This course covers aspects of battery performance in zero emission vehicles and second life applications of EV batteries. This course may be useful for an electrical engineer interested in working on electric vehicles.
Battery Analyst
The course covers performance and reliability of EV batteries, futuristic EV batteries, and second life and recycling of EV batteries. The course may be useful for someone interested in analyzing batteries.
Electrochemist
This course covers performance and reliability of EV batteries, futuristic EV batteries, and second life and recycling of EV batteries. This course may be useful for someone interested in electrochemistry of batteries.
Electric Vehicle Fleet Manager
This course covers aspects of battery performance in zero emission vehicles and second life applications of EV batteries. This course may be useful for someone interested in managing a fleet of electric vehicles.
Battery Consultant
The course covers aspects of battery performance in zero emission vehicles and second life applications of EV batteries. The course may be useful for someone interested in consulting on batteries.
Research Scientist - Batteries
The course covers performance and reliability of EV batteries, futuristic EV batteries, and second life and recycling of EV batteries. The course may be useful for someone interested in research on batteries.
Materials Scientist - Battery Materials
This course covers performance and reliability of EV batteries, futuristic EV batteries, and second life and recycling of EV batteries. This course may be useful for someone interested in materials science for batteries.
Energy Storage Systems Engineer
This course covers various application modes of batteries. This course may be useful for an engineer interested in storage systems.
Energy Policy Analyst
This course covers standards and regulatory requirements for batteries and electric vehicles. This course may be useful for an analyst interested in energy policy.
Renewable Energy Engineer
This course covers aspects of battery performance in zero emission vehicles. This course may be useful for someone interested in engineering renewable energy systems.

Reading list

We've selected six books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Batteries and Electric Vehicles.
Provides a comprehensive overview of electric vehicle technology, including batteries, electric motors, and power electronics. It is useful for both undergraduate and graduate students in the field of electrical engineering, as well as for professionals working in the automotive industry.
Provides a comprehensive overview of advanced automotive battery technologies, including lithium-ion batteries, lead-acid batteries, and nickel-metal hydride batteries. It is useful for both undergraduate and graduate students in the field of electrical engineering, as well as for professionals working in the automotive industry.
Provides a comprehensive overview of electric vehicle power systems, including modeling, design, and simulation. It is useful for both undergraduate and graduate students in the field of electrical engineering, as well as for professionals working in the automotive industry.
Provides a comprehensive overview of power electronics for electric vehicles, including DC-DC converters, AC-DC converters, and inverters. It is useful for both undergraduate and graduate students in the field of electrical engineering, as well as for professionals working in the automotive industry.
Provides a comprehensive overview of electric and hybrid vehicles, including design, fundamentals, and applications. It is useful for both undergraduate and graduate students in the field of electrical engineering, as well as for professionals working in the automotive industry.
Provides a comprehensive overview of automotive battery systems, including fundamentals, applications, and trends. It is useful for both undergraduate and graduate students in the field of electrical engineering, as well as for professionals working in the automotive industry.

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