年轻人被电车甩晕在通勤路上

Core Viewpoint - The article discusses the phenomenon of increased motion sickness experienced by passengers in electric vehicles (EVs), attributing it to the mismatch between the rapid acceleration and deceleration of EVs and the human body's adaptation to traditional gasoline vehicles [10][19][24]. Group 1: Urban Mobility Changes - Urban mobility has accelerated, but human bodies have not adapted to this new pace, leading to discomfort during commutes [10][19]. - The frequent stop-and-go nature of city driving exacerbates the issue, as passengers struggle to adjust to the rapid changes in speed [21][24]. Group 2: Physical Responses and Sensory Feedback - Human balance relies on visual cues, physical sensations, and feedback from the vestibular system, which are disrupted in EVs due to their silent operation and immediate response to acceleration [19][20]. - The lack of engine noise in EVs means that passengers do not receive the auditory cues that prepare their bodies for movement, leading to increased instances of motion sickness [20][21]. Group 3: Driver Behavior and Passenger Experience - Driver behavior, such as sudden acceleration or deceleration, can significantly impact passenger comfort, with anxious drivers contributing to a more erratic ride [20][25]. - The design of EVs, including features like regenerative braking, can create a jarring experience for passengers, as the vehicle's behavior differs from traditional cars [25][26]. Group 4: Industry Response and Consumer Adaptation - Car manufacturers are aware of the motion sickness issue but prioritize efficiency and performance over passenger comfort, leading to a growing disconnect between vehicle design and user experience [25][26]. - There is a rising trend in the market for solutions aimed at reducing motion sickness, such as "anti-motion sickness" features and products, indicating a potential new market segment [30][31].