Electric cars are known for their eco-friendliness, but did you know that some of the components used to manufacture them aren’t so environmentally friendly? Specifically, rare earth elements (REEs) have been a crucial part of electric motor manufacturing – until now. Tesla is shaking up the industry with its announcement that it will be getting rid of REEs in its upcoming next-gen electric motors. Let’s take a closer look at this exciting development and what it means for both the automotive and environmental industries.
Tesla’s new electric motors
In the past, Tesla’s electric motors have relied on rare earth elements like neodymium and dysprosium. However, the company is now working on a next-generation motor that will not require these materials.
This is good news for two reasons. First, it reduces Tesla’s reliance on rare earth minerals, which are often sourced from unstable countries like China. Second, it could mean that Tesla’s electric motors are more environmentally friendly, since mining and processing rare earth elements can be quite polluting.
Tesla has not released many details about its new motor yet, but we’re eager to see how this technology develops. If Tesla can succeed in making an electric motor without rare earth elements, it would be a major breakthrough for the automotive industry.
How they will be different from current electric motors
The next generation of Tesla electric motors will not require rare earth elements. This is a significant change from current electric motors, which do rely on rare earth elements. The lack of need for rare earth elements will make Tesla’s next-gen electric motors more affordable and easier to produce. In addition, the new motors will be more efficient than current electric motors, providing more range and power for vehicles.
What this means for the automotive industry
The Tesla Model S is the first mass-produced car with an electric motor that doesn’t use rare earth elements.
This is a big deal for the automotive industry, because rare earth elements are used in almost all electric motors. They’re essential for making strong magnets, which are necessary for generating the rotational force needed to turn an electric motor.
Without rare earth elements, electric motors would be much less efficient and would require more energy to operate. This would make electric cars much more expensive to produce and would likely limit their adoption.
So, Tesla’s new electric motors could help make electric cars more affordable and increase their appeal to consumers. This could spur a major shift away from gas-powered cars and help reduce pollution and climate change.