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Sonic boom fighters4/5/2023 The Sukhoi Su-30, the Mirage 2000 and the Rafale – all three of which the IAF operates – have top speeds in excess of this limit. A jet transitioning from supersonic to subsonic speeds at 35,000-40,000 feet likely slowed from above 294.9-295.4 m/s to below. So the speed of sound through the air at 30,000 feet is 303 m/s whereas it is 340 m/s at sea level. At 30,000 feet, for example, the atmospheric pressure is 30.1 kPa and at sea level it’s 101.3 kPa (this is why aircraft cabins are pressurised). Note that the speed of sound in a medium depends on the medium’s density, which in turn affects its pressure. According to the defence ministry, “The sonic boom was probably heard while the aircraft was decelerating from supersonic to subsonic speed between 36,000 and 40,000 feet altitude.” This is desirable considering such jets are usually used in war and it’s important for them to be as unnoticeable as possible. This is why a sonic boom is also heard when, say, the stages of the SpaceX Falcon Heavy rocket return to the ground after a launch (audible at 1:39 in the video below), decelerating using retrograde thrusters, or when a jet decelerates from supersonic to subsonic speeds – as the defence ministry said in a statement to ANI.Īlthough there is no way to keep supersonic jets from producing sonic booms when they accelerate or decelerate, those with smoother aerodynamic profiles can produce less noise in these phases. The two booms are associated with the two drastic changes in pressure, first when the overpressure is created and second when the negative pressure shifts rapidly to normal. So to a stationary observer, a passing jet would create an N-shaped pressure profile: first the observer will note the overpressure, then a steady decline as the jet moves ahead, culminating with a negative pressure at the tail-end, followed quickly by normal atmospheric pressure. At whatever speed the jet is flying at, there is a negative pressure behind the tail for the same reason there is an excess pressure – or overpressure – in the front: the jet’s passage pushes air in the front and drags air towards itself at the back. Second, you might hear a second boom associated with the same object because of differences in pressure around the jet. Image: Melamed katz/Wikimedia Commons, CC BY-SA 3.0 That is, the boom marks the moment when you experience a sudden but transient change in air pressure around you. But you hear it only once because the waves stream out from the front tip of the jet in the shape of a cone, and the boom is audible only when the waves reach you, not when they wash over you. The IAF jet would also have stayed supersonic for a time, and in this time, it constantly produces the shockwaves. When this shockwave reaches your ear, you hear the sonic boom: a thunderous clap of noise signalling there is a supersonic object in your wider vicinity. At some point they merge together into a single high-pressure wave known as a shockwave. But since they can only move out at the speed of sound, they begin to accumulate in front of the object. crosses the speed of sound in the medium in which it is flying, in this case the atmosphere – these pressure waves are pushed out at faster than the speed of sound. When any object flies through the atmosphere, it continuously pushes the air in front of it, creating pressure waves that ripple out at the speed of sound. However, by the morning of May 21, the Indian Air Force (IAF) indicated in a statement that the sound was associated with a jet going supersonic outside of city limits in a test flight. Even others wondered if it could be an earthquake – an idea that was quickly disfavoured after seismic data indicated no activity, and also because earthquakes don’t release enough acoustic energy to be heard around a city. The idea isn’t so far-fetched considering there are many research establishments, including those of ISRO, in the city that could be experimenting with hydrogen. Some people this author spoke to speculated it could have been a hydrogen leak: hydrogen reacts explosively with oxygen in the air and without a flame. Though the sound resembled a loud explosion, it would have had to be a very intense explosion to be heard across such a large geographical area, but the city’s residents couldn’t see any smoke or fire that could have accompanied such a blast. Bengaluru: In the afternoon of May 20, a very loud, cracking sound was heard throughout the city, with local reports confirming people had heard it near the airport in the north and around Electronic City in the south.
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