First Magnetic Levitation Test Conducted on Regular Train Tracks

## Magnetic Levitation Tests Signal a New Era for European Railways

Europe is on the brink of a major revolution in its railway industry, thanks to a successful trial by Italian company IronLev. The firm has demonstrated how a magnetic levitation train, also known as a maglev, could operate on existing train tracks. This is indeed groundbreaking news as it suggests that the more than 360,000 kilometers (224,000 miles) of rail tracks across Europe could potentially accommodate these futuristic vehicles.

The Advantages of Maglev Trains

Traditional trains, even those classified as “high speed,” consume more energy and generate more vibrations and noise. On the other hand, a maglev train hovers on a cushion of air, resulting in less resistance and noise. The benefits of maglev over traditional trains are evident.

The exciting aspect of IronLev’s latest test is that no modifications were made to the tracks used for the trial. The maglev train managed to reach speeds of 70 kilometers per hour on standard tracks, without any alterations. This suggests that there may be no need for significant changes to the existing European rail system to accommodate this advanced technology.

The Future of Rail Travel

The successful demo by IronLev is a testament to the progress made in maglev train research and development over the past several decades. It provides a hopeful future for replacing older, noisier trains with more efficient and quieter maglev trains.

Maglev trains have been operational for decades, with one even running in Germany during the Cold War from 1989 to 1991. However, despite their success, there are currently only six operational maglev trains worldwide: three in China, two in South Korea, and one in Japan.


The successful magnetic levitation test by IronLev signals an exciting time for the European railway industry. If existing railway tracks can accommodate maglev trains without significant modifications, it could pave the way for a cleaner, quieter, and more efficient mode of transportation. This development is not just a leap forward for the railway industry but also a significant stride towards sustainable transportation.

Questions & Answers

Q1: What is a maglev train?
A: A maglev, or magnetic levitation train, is a type of train that uses magnetic fields to levitate above the tracks, reducing friction and allowing for higher speeds.

Q2: How does a maglev train differ from traditional trains?
A: Unlike traditional trains, maglev trains hover on a cushion of air, meaning they have less resistance and produce less noise. They also consume less energy than traditional trains.

Q3: How many operational maglev trains are there worldwide?
A: Currently, there are six operational maglev trains globally: three in China, two in South Korea, and one in Japan.

Q4: What are the benefits of using maglev trains on Europe’s existing railway tracks?
A: The key benefit is that existing tracks may not require any significant modifications to accommodate maglev trains. This could lead to cost savings and faster implementation of this advanced technology.

Q5: How fast can maglev trains go on regular tracks?
A: In the recent demo by IronLev, the maglev train was able to reach speeds of 70 kilometers per hour on standard tracks without any modifications.First Magnetic Levitation Test Conducted on Regular Train Tracks