As fuel prices increase and as the world’s fossil fuel deposits become depleted, governments worldwide are pushing manufacturers to design and produce more electric vehicles. As a result, car manufacturers are looking for automotive engineers who have a background in electric vehicles. Are engineering and physics your passions? This course introduces you to the field of electric vehicle technology and will help you discover how the laws of physics impact the design of any vehicle. Study how aerodynamic drag, wind resistance, gradient resistance or the resistance created by gravity as a vehicle climbs a slope affects cars. Learn how to calculate the impact of these forces to understand how much power a motor needs to produce to overcome these forces while remaining energy-efficient.
Subsequently, calculating acceleration and torque and the role these forces play in giving a vehicle traction power will be discussed. In an internal combustion engine, traction power comes from petrol or diesel but this power comes from a battery in an electric vehicle. This course will teach you how to compute the amount of energy expressed in watts. A battery needs to provide a motor to produce the torque and traction power required to accelerate and reach specific speeds. Next, you will learn about the drive cycle’s role in determining how much energy a vehicle will consume per kilometre. This energy-efficiency concept is well known in vehicles and internal combustion vehicles. It is expressed in the consumption of litres per kilometre. Electric vehicles, however, use kilo-watt hours over kilometres. A drive cycle helps a designer determine a motor’s energy efficiency through computer simulations, taking into account energy losses and a concept you will learn known as ‘regeneration efficiency’.
Finally, you will learn important concepts concerning the vehicle's battery, such as battery capacity, depth of charge and charge and discharge cycles. You will examine how to prolong the battery’s life and calculate a battery’s operational life to determine when to replace the vehicle’s battery. Suppose you are interested in a career in automotive design. In that case, this course will give you a head start in the path of electric vehicle design in the same direction the automotive industry is beginning to take. If you are already in the automotive industry as an engineer, automotive technician, or mechanic, Alison’s introductory course on electric vehicles will give you an edge and provide you with the tools needed to push your career to the next level. So why wait! Start this ‘Introduction to Electric Vehicle Technology’ course today!
What You Will Learn In This Free Course
View All Learning Outcomes View Less All Alison courses are free to enrol study and complete. To successfully complete this course and become an Alison Graduate, you need to achieve 80% or higher in each course assessment. Once you have completed this course, you have the option to acquire an official , which is a great way to share your achievement with the world.
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Knowledge & Skills You Will Learn
