Gasoline cars do have a performance advantage when those top speeds are being sustained for longer periods of time. Electric cars essentially use one gear that delivers full torque at all speeds, allowing them to accelerate faster than internal combustion engines. Electric motors are simple, durable, and have far fewer moving parts than a combustion engine has, and the limit on their power often isn't the motor itself but the ev's battery.
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Because an electric motor can handle faster revolutions than an internal combustion engine, you can also attach it to the wheels via a single speed transmission.
This interaction produces a rotational force, or torque, instantaneously
As a result, electric motors achieve peak torque at zero rpm, enabling rapid acceleration from a standstill. Electric cars accelerate faster than gas cars because electric motors deliver instant torque at 0 rpm, while gas engines need to build up rpm to reach maximum torque We’ve discussed the role of electric motors, battery technology, regenerative braking, and aerodynamics in enabling electric cars to accelerate more quickly. Electric motors can accelerate much faster than internal combustion engines
This is because electric motors generate their torque when turning, while internal combustion engines require time to build up their torque. Explain why a car with a more powerful engine can accelerate faster than a car with a less powerful engine Upload your school material for a more relevant answer A car with a more powerful engine accelerates faster because it can exert a greater force according to newton's second law of motion.
