noun a type of train that uses magnetic levitation to move smoothly and quickly without touching the tracks
Maglev trains can be a key component in urban transportation planning, offering a fast and efficient mode of travel within cities.
Maglev technology represents an innovative approach to transportation, utilizing magnetic forces for propulsion and levitation.
Maglev systems require specialized engineering to design and maintain the magnetic levitation and propulsion systems.
The principles of magnetism and electromagnetism are crucial in understanding how maglev technology works.
Maglev technology is used in high-speed trains that levitate and move using magnetic fields, reducing friction and allowing for faster speeds.
Maglev technology is used by engineers in the design and development of high-speed trains that levitate and move using magnetic fields.
Physicists study the principles of magnetism and electromagnetism that are utilized in maglev technology to create frictionless transportation systems.
Urban planners consider maglev technology as a sustainable and efficient mode of transportation for future city infrastructure projects.
Transportation planners analyze the feasibility and cost-effectiveness of implementing maglev systems in public transportation networks.
Environmental scientists assess the environmental impact of maglev systems in terms of energy consumption, emissions, and land use.
Economists evaluate the economic benefits and drawbacks of investing in maglev technology compared to traditional transportation systems.