How does that work?As one example, people have captured emissions given off when charged particles from the Sun encounter our planet's magnetic field. Or they could be something else...Among the other sounds were the Martian wind, mechanical movements by the seismometer's arm and other noises described by the NASA team as "dinks and donks".The "dinks and donks" are thought to be parts of the seismometer expanding and contracting and the ticking sound could be due to heat loss - similar to the sound a car engine makes after it is turned off and begins cooling.Constantinos Charalambous, from Imperial College London, who worked on the audio recordings, said: "It has been exciting, especially in the beginning, hearing the first vibrations from the lander. "It is hoped that, by studying the marsquakes, scientists can learn more about how rocky planets - such as the Earth -were formed.So far, the team has learned that the Martian crust is like a combination of the Earth's and the Moon's.On Earth, cracks in the crust seal as water fills them with minerals, meaning sound waves continue uninterrupted as they pass through old fractures.On the Moon, the crusts do not seal, meaning sound waves are scattered for many minutes.Mars, with its cratered surface, is slightly more Moon-like, with seismic waves ringing for a minute or so, whereas earthquakes can come and go much more quickly.They also found that evenings were best for clear recordings because there was more wind interference during the day.Meanwhile, NASA's other task on Mars is not going quite as well.A German-made driller was meant to dig 16ft (almost five metres) below the surface but has managed barely 1ft (30cm) - not enough to fulfil its purpose: measuring the planet's internal temperature.It is not yet clear how the digger got stuck but scientists think the sand does not have enough friction for digging, meaning the "mole" has dug a pit around itself rather than digging deeper. Little do we realize that the universes is teeming with planetary music. Sounds still exists in the form of electromagnetic vibrations and can be detected using specially designed instruments developed by NASA.These amazing ambient space sounds come from electronic vibrations of the planets, moons and rings, electromagnetic fields of the planets and moons, planetary magnetosphere, trapped radio waves bouncing between the planet and the inner surface of it’s atmosphere, charged particle interactions of the planet, it’s moons and the solar wind, and from charged particle emissions from the rings of certain planets.Looking into outer space, we often assume it would be absolutely silent.
The earth and each of the planets of the solar system revolving around the sun makes a musical note so low it cannot be heard by the human ear. Space sounds … Did you know that planets and stars actually give off music? The ‘sounds’ of Earth come from the interaction of the Solar Wind with the planet’s magnetosphere, which releases charged ionic particles within the 20-20,000Hz range. The radio waves are closely related to the auroras near the poles of the planet. In these days, when most people understand that data is simply a collection of ones and zeroes, the idea of turning data into music isn't such a wild idea. Can a planet make a sound? They sound eerie and weird, but those In the 1990s, NASA explored the idea that emissions from other planets could be captured and processed so people could hear them. "You're imagining what's really happening on Mars as InSight sits on the open landscape. The planets don't sing pretty music when spaceships fly by. The hairs act like tiny antennae and convert the vibrations into electrical signals that race to the brain through the nerves. More of Saturn's eerie-sounding radio emissions. This is a bit of a tricky one.
NASA-Voyager recording - YouTube The creation of "planetary sound" started when the One interesting example was the so-called "Saturn kilometric radiation". However, those emissions can be used to create "false" sounds (that is, not the real "sound" a planet or other object might make). The resulting "music" is a collection of eerie, spooky sounds. earthsky.org/space/video-for-your-ears-what-do-planets-sound-like News reporter In a sense, planets do emit radiation which can be used to make sounds we can hear. More sounds from Mars have been revealed and, while some are likely to be marsquakes, the others are a mystery.The audio samples released on Tuesday cover more than 100 events detected by InSight's seismometer.The others could be. At the time of the Voyager 2 flyby of Saturn, the scientists working with the planetary radio astronomy instrument detected this radiation, speeded it up and made a "song" that people could hear. It is produced as electrons move along magnetic field lines, and they're somehow related to auroral activity at the poles. After all, the music we listen to on streaming services or our iPhones or personal players is all simply encoded data.
Alpha Leaders Productions 7,892,630 views How does that work?The way people and animals hear sound is that sound waves travel through the air and eventually reach the ear. But, we can't hear any sounds they might make. InSight took a selfie on the surface of Mars soon after its November landing On our planet, air molecules vibrate and transmit sound to our ears. (Plus, if someone is in space, they're likely to be wearing a helmet and a spacesuit and still wouldn't hear anything "outside" because there's no air to transmit it.) There is a good sampling of them on Not exactly. Our music players reassemble the data back into sound waves that we can hear. - Duration: 14:58.