Unless you are a motorsports fan, to the uninitiated, it is just about cars riding in circles at unimaginable speeds. So, we will give them the benefit of the doubt and not hold it against them if they feel that only the drivers, the fans, the sponsors, and the manufacturers have something to gain from this entire repertoire. It is easy to state the obvious, but all you need is a slight change of perspective to realize just how many lives, people, countries, industries, and even the environment have much to gain from it.
The most fundamental truth that stares right at us is that motorsports are a development tool. To quote Max Whitfield, the founder of gititstore.com, "Motorsports could be declared the largest research laboratory in the world. Consistently year after year, spanning the globe with test after test not only to win the race and the trophy of glory but to advance technology and better the performance of the average vehicle. The advancements in electrical and hybrid electric vehicles will be significantly enhanced by the actual tests performed under racing conditions on the varied racetracks around the globe."
A truth that no one can take away from motorsports is that it is still a test bed for research under all the glamor and action surrounding modern motorsports. Without the advantages of motorsports, such as improved engine systems (fuel injection, etc.), advanced suspension designs (disc brakes, independent suspension systems, adjustable shock absorbers), and even power steering systems, it would not be easy to imagine the modern daily driver or vehicle. One can see motorsports' full effects on the consumer when the safety devices (review mirrors, seat belts) are added.
Speaking specifically of the contributions of EV motorsports to society, some skeptics may ask: Why is achieving such speeds important to society?
Well, the answer to that is plain and simple, as stated by Max Whitfield himself. He says, "The performance developed in race vehicles to generate and sustain these speeds is at an extreme level of vehicle operation, exceeding that required by the average consumer. By achieving these levels of performance and sustainability for these vehicles, the byproduct will directly translate into the future development of more advanced electric batteries and hydrogen cells, electric motors, and other conventional drivetrain components. The premium battery technology used in these electric cars will aid in the development of the electric vehicle for mass production, with performance levels that outperform the current combustible engine vehicles driven today with zero emissions."
Besides the above-stated facts, motorsports, especially EV motorsports, have many other contributions to the economy and society that many people are unaware of. You probably already know about these electric vehicle advantages if you are interested in racing. If not, continue reading to discover the numerous benefits of the motorsports industry.
Government-industry collaborations with Argonne Laboratory, the U.S. Department of Energy, the U.S. Environmental Protection Agency, and the Society of Automotive Engineers to create the Green Challenge have sparked a fierce field for research into all alternative energy sources, with electric vehicles being the most recent. This collaboration with motorsports will boost the economy and lead to the future growth of employment.
Academically speaking, the prospects for teamwork and the advancement of the electric vehicle through motorsports result in an even more comprehensive range of engineering degrees. With racing serving as the definitive test, the potential for technological advancement through research will attract greater money from both private and public sources.
Society-The motorsports industry's development and EV technology improvements would primarily benefit society. The accelerated development of new EV products will reduce their cost and raise their reliability. Combining these strategies with the use of zero-emission automobiles will assist in mitigating and minimizing the carbon footprint.
Automobile manufacturers: With new products, new markets, and the need to keep improving their products through motorsports, the global market opens up to automotive manufacturers as a new playing field. The requirement and desire to achieve the objective of zero emissions balance out the cost of developing new technology.
Military: Due to the rigorous testing and requirements that Electric racing cars are subjected to, the military may benefit the most from research on electric motorsports. The military criteria directly translate to the durability needed to be maintained in the harsh environment of motorsports.
Economic Benefits: The development of the Electric sports cars contributes to employment creation and technological advancement. The innovative technology decreases fossil fuel dependence while minimizing climate change and cost.
Battery Performance: Due to costs, weight, driving range, and recharge time, batteries continue to be a weak point in developing EV technology. The EV is moving toward becoming a more environmentally friendly product for the general public. Recent years have shown significant advancements and improvements in EV battery technology. The development of solid-state EV batteries is one example. These batteries have the potential to be safer and more effective. Another exciting field of research is the creation of fast-charging batteries. With these batteries, we can now charge electric cars much more quickly—in just a few minutes instead of hours.
Additionally, there have also been advancements made in the recycling of electric vehicle batteries. It is crucial as it prevents the waste of expensive materials by recycling old batteries to make new ones. These fascinating developments demonstrate how bright the future is for electric vehicles.
Energy: Although it would not initially appear that the energy sector would benefit from electric racing, there is a direct correlation between the decline in demand for conventional energy sources in all industries. The capacity to improve EV efficiency through motorsports research and other new areas of study contributes to the growth of the energy technology industry and the creation of more jobs. Even integrating the reuse of recycled electric vehicle batteries in Battery Energy Storage Systems (BESS).
Environmental Impact: The environmental impact of EV motorsports technology and research is undoubtedly the winner. Earlier, the EV's potential to become the masses' preferred car was hampered because of the overall sustainability difficulties with batteries and electric motors. But the advancements in battery technology will lead to the continued rise of electric vehicles in the coming years. Lithium-ion batteries are one of the discoveries that have contributed to the growth of electric cars. In the past, cars used lead-acid batteries that required a short surge of electricity to start a car's engine while the onboard alternator recharged the battery for continued use. However, they weren't the best for releasing more than a small percentage of their power and were referred to as SLI batteries (starting, lighting, and ignition).
On the other hand, Lithium-ion batteries are designed to withstand a much higher energy density with more electric car battery life. These batteries are the key component as part of the power train used in electric cars, for all current electric vehicles/ manufacturers, as they can be charged at home or at specialized charging stations known as "fast chargers," which may fully charge your car in 30 minutes instead of overnight.
More zero-emission automobiles will be sold as motorsports develops technology to enable longer-lasting conditions for the consumer. With the help of these new EVs, dependence on oil can be reduced, leading to cleaner air and a better environment.
For instance, The Extreme E race is a competitive platform for advancing electric vehicle development and contributing to the establishment of a low-carbon, renewable-energy future.
By racing in remote terrains to raise climate awareness, this purpose-driven EV motorsport aims to promote sustainability and variety. To raise awareness of the world's environmental challenges, extreme E races are held in various locations worldwide, including rainforests, deserts, the icy Arctic, high altitudes, and ocean islands. Aims to promote sustainability and variety. To raise awareness of the world's environmental challenges, extreme E races are held in various locations worldwide, including rainforests, deserts, the icy Arctic, high altitudes, and ocean islands motorsport aims to promote sustainability and variety. To raise awareness of the world's environmental challenges, extreme E races are held in various locations worldwide, including rainforests, deserts, the icy Arctic, high altitudes, and ocean islands.
Because all race locations are chosen to draw attention to different climate change issues, extreme E's "Legacy Program" assists those locations with social and environmental issues.
Another example is a short film starring actor, and UNICEF ambassador Tom Hiddleston that served as the centerpiece of the Take a Breath global sustainability campaign, which UNICEF and Formula E unveiled on July 20.
The campaign aims to raise awareness of the effects of air pollution on children and offer suggestions to consumers and companies on reducing it.
To quote Formula E Director of Sustainability, Julia Palle added: "Take a Breath is fundamental in raising awareness of air pollution and ways we can all act to reduce it for the sake of current and future generations. Formula E was founded to drive e-mobility development and reduce emissions, and impactful partnerships and campaigns are at the heart of our work delivering sustainable change. As the first global sporting organization to partner with UNICEF, we are helping create a cleaner, safer, and more sustainable environment where children and future generations can thrive."
No one ever came up with the idea of employing motorsports in a lab. When the first automobiles were created, it all began on the racetrack. Extreme testing procedures were required to ascertain whether the constructed products were functional. The drive to evaluate things and the necessity for speed eventually gave way to "racing," and the idea of a real-world laboratory was born. The initial automobile was considered a very frightening contraption and questioned on its’ reliability and viability! To prove it had both, race it!
Today, speed and endurance tests are still necessary to produce the desired outcomes and progress the technology of the motor vehicle. In this case, we are monitoring the advancement of the Electric Vehicle and, to quote Max Whitfield, "These unique state-of-the-art performance machines are merely the beginning of what the world will witness in the next few years as the rapid expansion of EV motorsport is sure to propel the electric vehicle technology into the 21st century."
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