The first audio recordings on Mars reveal a quiet planet with occasional
gusts of wind where two different speeds of sound would have a strange
delayed effect on hearing, scientists said Friday.
After NASA's Perseverance rover landed on Mars in February last year, its
two microphones started recording, allowing scientists to hear what it is
like on the Red Planet for the first time.
In a study published in the Nature journal on Friday, the scientists gave
their first analysis of the five hours of sound picked up by Perseverance's
microphones.
The audio revealed previously unknown turbulence on Mars, said Sylvestre
Maurice, the study's main author and scientific co-director of the
shoebox-sized SuperCam mounted on the rover's mast which has the main
microphone.
The international team listened to flights by the tiny Ingenuity helicopter,
a sister craft to Perseverance, and heard the rover's laser zap rocks to
study their chemical composition—which made a "clack clack" sound, Maurice
told AFP.
"We had a very localized sound source, between two and five meters (six to
16 meters) from its target, and we knew exactly when it was going to fire,"
he said.
The study confirmed for the first time that the speed of sound is slower on
Mars, traveling at 240 meters per second, compared to Earth's 340 meters per
second.
This had been expected because Mars' atmosphere is 95 percent carbon
dioxide—compared to Earth's 0.04 percent—and is about 100 times thinner,
making sound 20 decibels weaker, the study said.
Most of the time, Mars is very quiet, scientists say.
'I panicked'
But the scientists were surprised when the sound made by the laser took 250
meters a second—10 meters faster than expected.
"I panicked a little," Maurice said. "I told myself that one of the two
measurements was wrong because on Earth you only have one speed of sound."
They had discovered there are two speeds of sound on the surface of Mars—one
for high-pitched sounds like the zap of the laser, and another for lower
frequencies like the whir of the helicopter rotor.
This means that human ears would hear high-pitched sounds slightly earlier.
"On Earth, the sounds from an orchestra reach you at the same speed, whether
they are low or high. But imagine on Mars, if you are a little far from the
stage, there will be a big delay," Maurice said.
"All of these factors would make it difficult for two people to have a
conversation only five meters (16 feet) apart", the French CNRS research
institute said in a statement.
'Scientific gamble' pays off
It was otherwise so quiet on Mars that the scientists repeatedly feared
something was wrong, the CNRS said, possibly provoking memories of two
failed previous attempts in 1999 and 2008 to record sound there.
"There are few natural sound sources with the exception of the wind," the
scientists said in a statement linked to the study.
The microphones did pick up numerous "screech" and "clank" sounds as the
rover's metal wheels interacted with rocks, the study said.
The recording could also warn about problems with the rover—like how drivers
sense something's wrong when their car starts making strange noises.
Maurice said he felt the "scientific gamble" of taking microphones to Mars
was a success.
Thierry Fouchet of the Paris Observatory, who was also involved in the
research, said that listening to turbulence, such as vertical winds known as
convection plumes, will "allow us to refine our numerical models for
predicting climate and weather".
Future missions to Venus or Saturn's moon Titan could also now come equipped
with microphones.
And Perseverance is far from done eavesdropping. While its core mission
lasts just over two years, it could remain operational well beyond that—the
Curiosity rover is still kicking nine years into a planned two-year stint.
Reference:
Maurice, S., Chide, B., Murdoch, N. et al. In situ recording of Mars
soundscape. Nature (2022).
DOI: 10.1038/s41586-022-04679-0
Tags:
Space & Astrophysics