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Quantum computing also holds promise in the field of drug discovery and material science. Traditional simulations of molecular structures are computationally expensive and often limited by classical hardware. Quantum computers, with their ability to process vast amounts of data simultaneously, could revolutionize how scientists develop new pharmaceuticals, leading to faster discovery of life-saving treatments. Similarly, materials science could benefit from quantum simulations, enabling the creation of superconductors and advanced materials that improve battery efficiency and renewable energy technologies.

The automotive industry is undergoing a technological revolution, driven by advancements in electric vehicles (EVs), autonomous driving, and smart connectivity. As traditional internal combustion engines (ICE) give way to more sustainable alternatives, manufacturers are investing heavily in battery technology, powertrain efficiency, and charging infrastructure. Companies like Tesla, Rivian, and legacy automakers such as Ford and Volkswagen are racing to develop high-performance EVs that offer longer range, faster charging, and enhanced driving experiences. Innovations in solid-state batteries and ultra-fast charging networks aim to address range anxiety, making EV adoption more practical for consumers.