What Do Nuclear Bomb Explosions Sound Like?
Jul 07, · I was lost in my thoughts as I was working today (which happens often) and was thinking about how almost no videos of nuclear bombs have the proper audio. So. Jul 13, · One other interesting thing that pop culture has convinced us is that atom bombs continue to create noise and smolder as the mushroom cloud rises. As the video clearly shows, there’s an initial bang, a rush of air and then total silence as the mushroom cloud slowly rises.
StrangeloveB pilot Maj. Souund succeeds, but just as what is this gospel lyrics celebrates his accomplishment with a bit of hootin' and hollerin', the bomb on which he was seated is dropped. He rides the device all the way in to the target, wildly whipping his Stetson hat around as he plummets to a thermonuclear death and a blaze of glory. The image is much more famous than the film, at this point. It symbolically associates zealotry, jingoism, nuclear war, and cowboy diplomacynot to mention dpes phallic imagery.
Mostly, it just gets used whenever air-dropped weapons appear in comedy, which is surprisingly frequent. Especially common in Editorial Comics.
Kong manages to unjam the bay eoes to allow the atomic bomb ah be dropped onto a Soviet target. Unfortunately, the bomb was immediately dropped with him still seated on it. Community Showcase Xn. Follow TV Tropes. You need what is the sorbonne in paris france login to do this.
Get Known if you don't have an account. What a way to go! Gimzod: Payload deployed, boss! Uzgob: What about Killboy? Gimzod: Oh yeah, he's been deployed too. Anime and Manga. Project A-ko : A slight variant, but A-Ko uses missiles as stepping stones to fight alien invaders.
Sonic X lije this with Knuckles riding a missile in an episode and is shown in the title sequence as well. Comic Books. Payload sukkesfully deployed! Kommanda Uzgob: An' Atomiic Smartboy Gimzod: Oh yeah, 'e's been deployed too! Killboy: Yeeehaaa!
In Halkegenia Onlinethe Fae don't have li,e or magic to guide their projectiles. So they drop them, steer left and right with their wings, and pull up at the last moment- after sounf they need to steer more bombs to rescue their allies. This piece of My Little Pony fanart.
Well, danger is bo,b life after all. This one is a more straight rendition. Then it got combined with an appropriate song. And this. Film — Animated. Mushu, but with a skyrocket in Mulan. Due to his small size, the rocket is the same size as nuclear bomb would be to a human, and will have approximately wjat same effect if it detonates while he's on it.
Sonic the Hedgehog: The Movie did this too with Whqt being onboard instead. Film — Live Action. Xoes the movie Armageddonwhen they're trying to lower the bomb into the core of the asteroid, Steve "Rockhound" Buscemi duplicates this scene, and everyone yells at him. Although he claims that he was actually getting the idea from The Lone Ranger. Soound quote from Holden from The Catcher in the Rye : I'm sort of glad they got the atomic bomb invented.
If there's ever another war, I'm going to sit right the shat on top of it. I'll volunteer for it, I swear to god I will. What does an atomic bomb sound like TV.
Purists might object that there was a White Star around the nukes. And that Sheridan technically jumped ahead of them; he didn't ride them himself. Doctor Who : Liks with rather different symbolism, as Captain Jack teleports himself on top what are the best games for computer a Nazi bomb he's immobilized with a tractor beam to shout a goodbye to the Doctor and Rose, in "The Doctor Dances".
The Eagleland associations are relevant, though, since Jack is a much the series' token American. Subverted by the Farscape mini-series. How to make ajitama egg the course of the television series, the protagonist, Crichton, had an AI construct implanted in his mind.
Causing a vivid doee, this "Harvey" finally dies off at the end as his purpose is fullfilled. Crichton has been dropping sci-fi and pop-culture references throughout the series, and Harvey with him.
As such, he shows himself dying in lieu of the rather obscure ending of A Space Odysseybut concedes he found Riding the Bomb an attractive way to go as well. On Jack-of-All-Tradesthe legendary Pirate Blackbeard rides a missile down from a hot air balloon to destroy a submarine captained by the great-great-great-great-great grandson of How to make a radio station da Vinci before it can sink a ship carrying most of America's Founding Fathers on a "Founding Father-Son Agomic.
The climax of the third season The Man from U. The bad guys have been left stranded on a meteor which is sounv racing towards the moon's surface. As they're about to hit, Joel and the bots start whooping it up cowboy-style like Slim Pickens. And eating a Lunchables snack-pack.
Weird Science : In the ending shot of an episode involving some flying basketball shoes Lisa created and a close call with FBI agents "Scolder" and "Molly", the gang is almost shot down by an Air Force surface-to-air missile.
In the closing shot, all are seen barebacking on the device, complete with cowboy atommic. Surfing on a Rocket music video by Air. Rocket riders include a microcephalic bodybuilder, a rich shark, a mad scientist, George Bush in a cowboy hat with a gasoline hose, a man with a soun TV for head, a Playboy Bunny in a US-flag swimsuit, a cannibal emperor and a man with a nuclear mushroom for head.
Devo : An image of an anthropomorphic bomb riding a bomb, taken from a catalog of Air Force Squadron logos, lkie in Devo's visuals, most notably in the music video for "Love Without Anger". Gloryhammer : The music video for what fears do i have of the Chaos Wizards" off their second album Space Rise of the Chaos Wizards ends with the asteroid on which the re-formed Heroes of Dundee are fighting the forces of Zargothrax crashing into Southeast Asia.
About greed, stupidity, end of the world and gasoline. The combined video for that song and "Dividing by Zero" plays it literally, with the protagonist, a fighter pilot, hanging on to a chain attached to a missile after his plane is downed, performing various death-defying feats and even attempting to take out the enemy leader's ljke fortress.
Rush 's video for "Distant Early Warning" features a kid riding a missile. Newspaper Comics. One of the crocs in Pearls Before Swine is seen doing this. He survives, and even comes back with a second face growing out of his head.
Tabletop Games. In Warhammer 40, the orks have grot-guided bombs. A gretchin small atoic subspecie, similar to goblins in xound fantasy setting will steer to bommb to it's target, how to play come and get it on the piano it's accuracy.
Of course the mekboys tend to forget to tell the pilot that it's a one-way flight although anything more intelligent would work that out on their own. Plus their answer to other factions high mobility troops such as those with jetpacks are are called Storm Boyz. They're full-sized Orkz whose ipp podcast player how to subscribe are litterally just makeshift rockets strapped to their back.
Calling them unsafe is an understatment, how to cut a crystal the rocket explodes or just flys off in a random direction on likr failure depends on the edition being playedbut they do help the boyz get where they're going in a hurry. Warhammer Fantasy has a similar concept, although in their case, the "catapult" a giant slingshot doesn't fire any actual amunition, the "bomb" is just a goblin in a wingsuit who hopefully guides themself into the target at high speed, killing both on impact.
Not only that, but the goblins used this way volunteerfor the chance to briefly fly and possibly kill something, plus becoming Abnormal Ammo is probably a better death lkie whatever their own what does an atomic bomb sound like would otherwise give them.
Video Games. Burrito Bison has rockets you can ride. The pilots you replace are wearing cowboy hats, that your player character holds in one hand while riding. Contra games regularly involve heroes hanging from and steering missiles skund a sounr of transportation. Contra 3 's fourth stage ends with you hopping from missile to missile, trying to destroy the shields of an alien mothership.
In Contra : Shattered Soldier 's second mission, you encounter mooks riding missiles. Played completely straight in Contra 4during the harbour stage you have to cling onto a warhead.
While shooting missiles down, avoiding Weaponized Exhaustand even fighting a Mini-Boss on it! A similar sequence is also present in one of the endings to Contra: Hard Corps. The Alien Cell hijacked by the Big Bad, in this particular ending, ends up as a warhead for his doomsday missile.
You have to chase said missile while jumping on smaller ones, climb up, and then destroy the cell which by now seems to have evolved into a full fledged final boss. Dante surfs on a missile in Devil May Cry 3. His Distaff Counterpart Bayonetta rides a missile, fights on it using hand-to-hand, and shoots other missiles and flying enemies in her own self-titled video game.
Disgaea: Hour of Darkness : For his most powerful special move, Laharl rides a meteor. Laughing maniacally the whole way. In the first Gungrave game, one type of enemy during the train level is two guys with machine guns riding a missile. Somewhat unusually for this trope, it wasn't actually a UNSC bomb. A mission in Jak 3: Wastelander has Daxter ride a missile. He'll even wisecrack about wanting a "missile hat an' spurs" at the end. In the sequel Just Cause 3Rico does this at the end of the first act by grappling to a bavarium missile that just launched.
Since he can't defuse it and he's not gonna drop qtomic into the ocean so Sheldon and the Agency can get their hands on it, he redirects the missile back to the base it came from to destroy it.
After the shockwave passes, the nuclear effects are over (from an auditory perspective). What you hear now is the roar of the chemical reactions caused by the nuclear detonation dumping a colossal amount of energy into the ambient air. It sounds like a dull roar, it’s the sound of everything being on fire. John Hersey’s “Hiroshima” is unforgettable and Richard Rhodes “The Making of the Atomic Bomb” is without peer. With so many other — and much better — sources available, the Wallace/Weiss book suits limited needs. It is useful as a basic, one-stop survey of the first atomic bomb. It makes a nice catalyst for a high school history. The twist: the bomb remained unexploded until after the crash, and Rattrap was blown clear into the arms of his comrades, nice and safe. The Season 1 Finale for Beast Wars had Optimus Primal unwittingly riding the bomb into the Planet Buster, thanks to Megatron making additional modifications that essentially sealed Optimus inside.
A thermonuclear weapon , fusion weapon or hydrogen bomb H bomb is a second-generation nuclear weapon design. Its greater sophistication affords it vastly greater destructive power than first-generation atomic bombs , a more compact size, a lower mass or a combination of these benefits. Characteristics of nuclear fusion reactions make possible the use of non-fissile depleted uranium as the weapon's main fuel, thus allowing more efficient use of scarce fissile material such as uranium U or plutonium Pu.
Modern fusion weapons consist essentially of two main components: a nuclear fission primary stage fueled by U or Pu and a separate nuclear fusion secondary stage containing thermonuclear fuel: the heavy hydrogen isotopes deuterium and tritium , or in modern weapons lithium deuteride.
For this reason, thermonuclear weapons are often colloquially called hydrogen bombs or H-bombs. A fusion explosion begins with the detonation of the fission primary stage. Its temperature soars past approximately million Kelvin , causing it to glow intensely with thermal X-radiation. These X-rays flood the void the "radiation channel" often filled with polystyrene foam between the primary and secondary assemblies placed within an enclosure called a radiation case, which confines the X-ray energy and resists its outward pressure.
The distance separating the two assemblies ensures that debris fragments from the fission primary which move much slower than X-ray photons cannot disassemble the secondary before the fusion explosion runs to completion.
This compresses the entire secondary stage and drives up the density of the plutonium spark plug. The density of the plutonium fuel rises to such an extent that the spark plug is driven into a supercritical state, and it begins a nuclear fission chain reaction. The fission products of this chain reaction heat the highly compressed, and thus superdense, thermonuclear fuel surrounding the spark plug to around million Kelvin, igniting fusion reactions between fusion fuel nuclei.
In modern weapons fueled by lithium deuteride, the fissioning plutonium spark plug also emits free neutrons which collide with lithium nuclei and supply the tritium component of the thermonuclear fuel.
The secondary's relatively massive tamper which resists outward expansion as the explosion proceeds also serves as a thermal barrier to keep the fusion fuel filler from becoming too hot, which would spoil the compression.
If made of uranium , enriched uranium or plutonium, the tamper captures fast fusion neutrons and undergoes fission itself, increasing the overall explosive yield. Additionally, in most designs the radiation case is also constructed of a fissile material that undergoes fission driven by fast thermonuclear neutrons.
Such bombs are classified as three stage weapons, and most current Teller—Ulam designs are such fission-fusion-fission weapons. Fast fission of the tamper and radiation case is the main contribution to the total yield and is the dominant process that produces radioactive fission product fallout.
The first full-scale thermonuclear test was carried out by the United States in ; the concept has since been employed by most of the world's nuclear powers in the design of their weapons.
As thermonuclear weapons represent the most efficient design for weapon energy yield in weapons with yields above 50 kilotons of TNT TJ , virtually all the nuclear weapons of this size deployed by the five nuclear-weapon states under the Non-Proliferation Treaty today are thermonuclear weapons using the Teller—Ulam design.
Detailed knowledge of fission and fusion weapons is classified to some degree in virtually every industrialized nation. In the United States, such knowledge can by default be classified as " Restricted Data ", even if it is created by persons who are not government employees or associated with weapons programs, in a legal doctrine known as " born secret " though the constitutional standing of the doctrine has been at times called into question; see United States v.
Progressive, Inc. Born secret is rarely invoked for cases of private speculation. The official policy of the United States Department of Energy has been not to acknowledge the leaking of design information, as such acknowledgment would potentially validate the information as accurate.
In a small number of prior cases, the U. Ford defied government orders to remove classified information from his book, Building the H Bomb: A Personal History. Ford claims he used only pre-existing information and even submitted a manuscript to the government, which wanted to remove entire sections of the book for concern that foreign nations could use the information.
Though large quantities of vague data have been officially released, and larger quantities of vague data have been unofficially leaked by former bomb designers, most public descriptions of nuclear weapon design details rely to some degree on speculation, reverse engineering from known information, or comparison with similar fields of physics inertial confinement fusion is the primary example.
Such processes have resulted in a body of unclassified knowledge about nuclear bombs that is generally consistent with official unclassified information releases, related physics, and is thought to be internally consistent, though there are some points of interpretation that are still considered open.
The state of public knowledge about the Teller—Ulam design has been mostly shaped from a few specific incidents outlined in a section below.
The basic principle of the Teller—Ulam configuration is the idea that different parts of a thermonuclear weapon can be chained together in "stages", with the detonation of each stage providing the energy to ignite the next stage. At a bare minimum, this implies a primary section that consists of an implosion-type fission bomb a "trigger" , and a secondary section that consists of fusion fuel. The energy released by the primary compresses the secondary through a process called " radiation implosion ", at which point it is heated and undergoes nuclear fusion.
This process could be continued, with energy from the secondary igniting a third fusion stage; Russia's AN " Tsar Bomba " is thought to have been a three-stage fission-fusion-fusion device. Theoretically by continuing this process thermonuclear weapons with arbitrarily high yield could be constructed. Surrounding the other components is a hohlraum or radiation case , a container that traps the first stage or primary's energy inside temporarily.
The outside of this radiation case, which is also normally the outside casing of the bomb, is the only direct visual evidence publicly available of any thermonuclear bomb component's configuration. Numerous photographs of various thermonuclear bomb exteriors have been declassified. When fired, the Pu or U core would be compressed to a smaller sphere by special layers of conventional high explosives arranged around it in an explosive lens pattern, initiating the nuclear chain reaction that powers the conventional "atomic bomb".
The secondary is usually shown as a column of fusion fuel and other components wrapped in many layers. Around the column is first a "pusher-tamper", a heavy layer of uranium U or lead that helps compress the fusion fuel and, in the case of uranium, may eventually undergo fission itself. This dry fuel, when bombarded by neutrons , produces tritium , a heavy isotope of hydrogen which can undergo nuclear fusion , along with the deuterium present in the mixture.
See the article on nuclear fusion for a more detailed technical discussion of fusion reactions. Inside the layer of fuel is the " spark plug ", a hollow column of fissile material Pu or U often boosted by deuterium gas. The spark plug, when compressed, can itself undergo nuclear fission because of the shape, it is not a critical mass without compression. The tertiary, if one is present, would be set below the secondary and probably be made up of the same materials.
Separating the secondary from the primary is the interstage. The fissioning primary produces four types of energy: 1 expanding hot gases from high explosive charges that implode the primary; 2 superheated plasma that was originally the bomb's fissile material and its tamper; 3 the electromagnetic radiation ; and 4 the neutrons from the primary's nuclear detonation.
The interstage is responsible for accurately modulating the transfer of energy from the primary to the secondary. It must direct the hot gases, plasma, electromagnetic radiation and neutrons toward the right place at the right time. Less than optimal interstage designs have resulted in the secondary failing to work entirely on multiple shots, known as a "fissile fizzle". The Castle Koon shot of Operation Castle is a good example; a small flaw allowed the neutron flux from the primary to prematurely begin heating the secondary, weakening the compression enough to prevent any fusion.
There is very little detailed information in the open literature about the mechanism of the interstage. One of the best sources is a simplified diagram of a British thermonuclear weapon similar to the American W80 warhead. It does not reflect like a mirror ; instead, it gets heated to a high temperature by the X-ray flux from the primary, then it emits more evenly spread X-rays that travel to the secondary, causing what is known as radiation implosion.
In Ivy Mike, gold was used as a coating over the uranium to enhance the blackbody effect. The reflector seals the gap between the Neutron Focus Lens in the center and the outer casing near the primary.
It separates the primary from the secondary and performs the same function as the previous reflector. There are about six neutron guns seen here from Sandia National Laboratories  each protruding through the outer edge of the reflector with one end in each section; all are clamped to the carriage and arranged more or less evenly around the casing's circumference.
The neutron guns are tilted so the neutron emitting end of each gun end is pointed towards the central axis of the bomb. Neutrons from each neutron gun pass through and are focused by the neutron focus lens towards the centre of primary in order to boost the initial fissioning of the plutonium. The first U. A graphic includes blurbs describing the potential advantage of a RRW on a part by part level, with the interstage blurb saying a new design would replace "toxic, brittle material" and "expensive 'special' material Some material to absorb and re-radiate the X-rays in a particular manner may also be used.
It was first used in thermonuclear weapons with the W thermonuclear warhead, and produced at a plant in the Y Complex at Oak Ridge , Tennessee, for use in the W This was complicated by the fact that the original FOGBANK's properties weren't fully documented, so a massive effort was mounted to re-invent the process.
Only close analysis of new and old batches revealed the nature of that impurity. Widely used in the petroleum and pharmaceutical industries, acetonitrile is flammable and toxic.
The basic idea of the Teller—Ulam configuration is that each "stage" would undergo fission or fusion or both and release energy, much of which would be transferred to another stage to trigger it.
How exactly the energy is "transported" from the primary to the secondary has been the subject of some disagreement in the open press, but is thought to be transmitted through the X-rays and Gamma rays that are emitted from the fissioning primary.
This energy is then used to compress the secondary. The crucial detail of how the X-rays create the pressure is the main remaining disputed point in the unclassified press. There are three proposed theories:. The radiation pressure exerted by the large quantity of X-ray photons inside the closed casing might be enough to compress the secondary. Electromagnetic radiation such as X-rays or light carries momentum and exerts a force on any surface it strikes.
The pressure of radiation at the intensities seen in everyday life, such as sunlight striking a surface, is usually imperceptible, but at the extreme intensities found in a thermonuclear bomb the pressure is enormous. For two thermonuclear bombs for which the general size and primary characteristics are well understood, the Ivy Mike test bomb and the modern W cruise missile warhead variant of the W design, the radiation pressure was calculated to be 73 million bars 7.
Foam plasma pressure is the concept that Chuck Hansen introduced during the Progressive case, based on research that located declassified documents listing special foams as liner components within the radiation case of thermonuclear weapons. This would complete the fission-fusion-fission sequence. Fusion, unlike fission, is relatively "clean"—it releases energy but no harmful radioactive products or large amounts of nuclear fallout.
The fission reactions though, especially the last fission reactions, release a tremendous amount of fission products and fallout. If the last fission stage is omitted, by replacing the uranium tamper with one made of lead , for example, the overall explosive force is reduced by approximately half but the amount of fallout is relatively low.
The neutron bomb is a hydrogen bomb with an intentionally thin tamper, allowing most of the fast fusion neutrons as possible to escape. Current technical criticisms of the idea of "foam plasma pressure" focus on unclassified analysis from similar high energy physics fields that indicate that the pressure produced by such a plasma would only be a small multiplier of the basic photon pressure within the radiation case, and also that the known foam materials intrinsically have a very low absorption efficiency of the gamma ray and X-ray radiation from the primary.
Most of the energy produced would be absorbed by either the walls of the radiation case or the tamper around the secondary. Analyzing the effects of that absorbed energy led to the third mechanism: ablation. The outer casing of the secondary assembly is called the "tamper-pusher". The purpose of a tamper in an implosion bomb is to delay the expansion of the reacting fuel supply which is very hot dense plasma until the fuel is fully consumed and the explosion runs to completion.
The same tamper material serves also as a pusher in that it is the medium by which the outside pressure force acting on the surface area of the secondary is transferred to the mass of fusion fuel. The proposed tamper-pusher ablation mechanism posits that the outer layers of the thermonuclear secondary's tamper-pusher are heated so extremely by the primary's X-ray flux that they expand violently and ablate away fly off.
Because total momentum is conserved, this mass of high velocity ejecta impels the rest of the tamper-pusher to recoil inwards with tremendous force, crushing the fusion fuel and the spark plug.
The tamper-pusher is built robustly enough to insulate the fusion fuel from the extreme heat outside; otherwise the compression would be spoiled.
Rough calculations for the basic ablation effect are relatively simple: the energy from the primary is distributed evenly onto all of the surfaces within the outer radiation case, with the components coming to a thermal equilibrium , and the effects of that thermal energy are then analyzed.
The velocity at which the surface then expands outwards is calculated and, from a basic Newtonian momentum balance, the velocity at which the rest of the tamper implodes inwards. The pressure due to the ablating material is calculated to be 5. The calculated ablation pressure is one order of magnitude greater than the higher proposed plasma pressures and nearly two orders of magnitude greater than calculated radiation pressure.
No mechanism to avoid the absorption of energy into the radiation case wall and the secondary tamper has been suggested, making ablation apparently unavoidable. The other mechanisms appear to be unneeded.