Converting the energy of 1,100 decibels to mass yields 1.113x1080 kg, meaning that the radius of the resulting black hole's event horizon would exceed the diameter of the known universe. Voila! No more universe.
a sound greater than 1,100 decibels would unleash enough energy to act like an equivalent quantity of mass. Through Einstein's laws of relativity, this mass would create enough gravity enough to form a black hole.
With energy as great as 1100 dB, it would create enough gravity to cause a black hole to form, and an incredibly large one at that. Decibels are a logarithmic unit.
so to get 1100 dB, you need to explode 1*10^85 atomic bombs or 1 with 85 zeros on the right.
"If you could produce a sound louder than 1100 dB, you would create a black hole, and ultimately destroy the galaxy".
At 194 dB, the energy in the sound waves starts distorting and they create a complete vacuum between themselves. The sound is no longer moving through the air, but is in fact pushing the air along with it, forming a pressurized wall of moving air.
The Krakatoa volcanic eruption: Not only did it cause serious damage to the island, the eruption of Krakatoa in 1883 created the loudest sound ever reported at 180 dB. It was so loud it was heard 3,000 miles (5,000 km) away. 3.
A nuclear bomb.
Decibel meters set 250 feet away from test sites peaked at 210 decibels. The sound alone is enough to kill a human being, so if the bomb doesn't kill you, the noise will.
A supernova would sound like 10 octillion two-megaton nuclear bombs exploding. A supernova, however, just might be the most brutal concert in the universe.
on edge of Black Hole. Space and time are intertwined, called space-time, and gravity has the ability to stretch space-time. Objects with a large mass will be able to stretch space-time to the point where our perception of it changes, known as time dilation.
but the loudest sound in the universe. is actually from the merger or collision. of 2 black holes. in what you're about to hear, scientists converted the gravitational waves. of 2 black holes, both 30 times the size of the sun, and converted them into sound waves.
Converting the energy of 1,100 decibels to mass yields 1.113x1080 kg, meaning that the radius of the resulting black hole's event horizon would exceed the diameter of the known universe. Voila! No more universe.
Turbo-fan aircraft at takeoff power at 200 ft (118 dB). Riveting machine (110 dB); live rock music (108 - 114 dB). Average human pain threshold. 16 times as loud as 70 dB.
The highest sound a human can hear in decibels is about 130-140 dB. While we may be able to hear sounds above this level, it is highly unrecommended that we expose ourselves to them. Sounds above 130 dB can cause intense pain in the ears and immediate and irreversible hearing damage.
Human screams can be quite loud, possibly exceeding 100 dB (as of March 2019, the world record is 129 dB!)
The loudest fart ever recorded occurred on May 16, 1972 in Madeline, Texas by Alvin Meshits. The blast maintained a level of 194 decibels for one third of a second. Mr.
In practice, “dB” often stands for “dB SPL”. Because the decibel scale is logarithmic, a three-decibel increase in sound level already represents a doubling of [sound] intensity. For example, a normal conversation may be about 65 dB and someone shouting can typically be around 80dB.
The intense heat from the detonation was capable of causing third-degree burns at a distance of 62 miles from ground zero. The shock wave was felt as far away as the Dikson settlement located 430 miles away, and windows shattered at a distance of 560 miles.
A study of noise on Airbus A321 aircraft reported levels of 60-65 decibels (dBA) before takeoff; 80-85 dBA during flight; and 75-80 dBA during landing. The outside of aircraft engines (around 140 dB at takeoff) and conditions on other aircraft may have higher or lower noise levels.
Scientists already knew that a nuclear blast in space behaves very differently from one on the ground, says Spriggs. There is no mushroom cloud or double flash. People on the ground don't feel a shock wave or hear any sound.
Sounds above 150 dB have the potential of causing life-threatening issues. Sounds between 170-200 dB are so intense that they can cause lethal issues like pulmonary embolisms, pulmonary contusions, or even burst lungs.
Normal hearing means you can hear sounds as low as 0-10 dB. Note that 0 dB is not an absence of sound; it is the quietest level the human ear can detect, like a leaf falling to the ground. Slight hearing loss means you cannot hear sounds under 15 dB.
1000 db is not possible.