A research collaboration between Queen Mary University of London, the University of Cambridge and the Institute for High Pressure Physics in Troitsk has discovered the fastest possible speed of sound.
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The result- about 36 km per second — is around twice as fast as the speed of sound in diamond, the hardest known material in the world.
Waves, such as sound or light waves, are disturbances that move energy from one place to another. Sound waves can travel through different mediums, such as air or water, and move at different speeds depending on what they’re travelling through. For example, they move through solids much faster than they would through liquids or gases, which is why you’re able to hear an approaching train much faster if you listen to the sound propagating in the rail track rather than through the air.
Einstein’s theory of special relativity sets the absolute speed limit
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- Physicists tested sound as it travels through different materials
- Sound can almost reach its upper limit when traveling in solid atomic hydrogen
- The finding is vital in different fields of studies like materials science and condensed matter physics
Sound waves can travel to up to 36 kilometers or more than 22 miles per second when traveling through solids or liquids, a new study by a team of physicists revealed. The physicists said that their calculation could be the first known variables representing the threshold of sound waves.
Before this new finding, the speed of sound was measured based on Albert Einstein’s theory of special relativity that identified sound waves threshold similar to that of the speed of light (300,000 kilometers or over 186,000 miles per second).
In a study, published in the journal Science Advances, the physicists said to calculate for the threshold of the speed of sound,
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SAN FRANCISCO – Colorado startup ExoTerra Resources announced a NASA Small Business Innovative Research contract Oct. 5 to develop a solar electric upper stage to boost small satellites traveling on Virgin Orbit’s LauncherOne beyond low Earth orbit.
With ExoTerra’s Solar Electric Propulsion Upper Stage, LauncherOne customers could reach destinations including geostationary orbit, trans-lunar injection orbit, Earth-Moon Lagrange points and low lunar orbit, according to the ExoTerra news release.
“This win allows ExoTerra to begin development of an upper stage that will deliver up to 150 kilograms of payload to the moon,” according to the news release. The upper stage also could transport 180-kilogram payloads to geostationary orbit, the release added.
Virgin Orbit announced plans in 2019 to send small satellites to Mars in 2022 for Polish satellite manufacturer SatRevolution.
“That announcement definitely has attracted the interest of many others in the growing aerospace community,” a Virgin Orbit spokesman said by