I believe, in these tests, the outcome was restricted.. But in case of a real such war, nuclear winter is possible...
Hmm .. How so?
I am not saying you are wrong but can you elaborate?
What if i tell you , they are not so diffrent?
Maybe because they were tests and there was no real war and the bomb dropped in Japan was weak to effect climate.
they were tests but stll detonations were real
Well all these test where made with ample time gaps. In a war that will not be the situation. If not hundreds, tens of those will explode at close proximity at about the same time.
please elaborate the last line .
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what if i tell you guys that a real nuclear exchange will be more similar to these tests as compared to these simulations which predict a ''
nuclear winter'' as a result of even a regional nuclear war
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yeah you may heard about these studies, one link i gave in my OP where they claim soot , dust , will be be blown up into the atmosphere and will cover up the earth causing a nuclear winter....
well most of these simulations and studies assume that every detonation will
- be a ground burst
- will produce firestorm
and greatly exaggerate
If we look into the facts , the fact is that countervalue targets (cities) are targetted by airbursts , the hieght of the detonation is set to maximise 5-10 PSi overpresure
the Optimum hieght depends upon the yeild........
at that hieght the fireball doesn't touches the ground even and the ''Local fallout'' is negligble
what is local fallout?
We were talking about a tactical nuclear explosions (air bursts) 1-5kt of TnT inside pakistani territory
Oh here i go again, will have to give you guys a lecture on this
ok listen, we classify fallout like this:
Local Fallout.
Incase of a land or water surface burst, large amounts of earth or water will be vaporized by the heat of the initial fireball and drawn up into the radioactive mushroom cloud. all this material will become radioactive when it condenses with fission products and other radiocontaminants or if it has become neutron-activated. There will be large amounts of particles of less than 0.1 um to several millimeters in diameter generated in a surface burst (Do note that I am saying that in the discussed scenario is that the detonations will be air burst)
The larger/heaviour particles will not rise into the stratosphere and consequently will settle to earth within about 24 hours called local fallout. Severe local fallout contamination can extend far beyond the blast and thermal effects, particularly in the case of high yield (multi-magaton) surface detonations.
People in the radiologically contaminated area, will have radiation exposure as well as a possible later internal hazard due to inhalation and ingestion of many radiocontaminants.
Some radiation would contaminante large amounts of land and drinking water causing formal mutations throughout animal and human life.
In cases of water surface (and shallow underwater) bursts, the particles tend to be rather lighter and smaller and so produce (less local fallout but will extend over a greater area.) The particles contain mostly sea salts with some water; these can have a cloud seeding affect causing local rainout and areas of high local fallout.
BUT Incase of an airburst it produces minimal local fallout if the fireball does not touch the ground. and there is a certain hieght at which an airburst of a particular yield and fission fraction will produce negligble LOCAL FALLOUT.
Worldwide Fallout.
After an air burst the 1. fission products, 2. unfissioned nuclear material, and the residue of the warhead which will be vaporized by the fireball and will condense into a fine suspension ofparticles 0.01 to 20 micrometers in diameter. These particles may be quickly drawn up into the stratosphere especially if the explosive yield exceeds 10 Kt of TnT (remember we are taking about An airburst of 1-5 kt of TnT range and that too at considerable hieght to maximise Blast effects). The particles will then be dispersed by the winds in the atmosphere and will slowly settle to the earth's surface after weeks, months, and even years as worldwide fallout. The radiobiological hazard of worldwide fallout is long-term one due to the potential accumulation of long-lived radioisotopes, such as strontium-90 and cesium-137, in the human or animal body as a result of eating of foods which had incorporated these radioactive materials. This hazard is much less serious than that of local fallout's
And yes winds do matter a lot but an airburst of this trivial yeild will result in negligble local and little Worldwide fallout.
@
Secur @
Slav Defence
Secondly ,
Volcanic eruptions e.g. the Tambora eruption (equivalent to 800 megatons) did not produce a nuclear winter,
which actually throw out billions of tons of ash and smoke at once.
and these studies want us to believe that even regional nuclear wars will cause a nuclear winter.. pfft
thirdly not every detonation causes firestorms The only nuclear detonation ever to produce a firestorm was the one over
( yeah airburst to maximise destruction and reduce fallout) Hiroshima, and the soot sucked into the
air rained down immediately afterwards. Yet for a nuclear winter to take place,
every single detonation would have to produce a firestorm, and the dust and ash and other particles would have to stay in the athmosphere for years. so Nuclear winter depends upon a string of assumption that are not found in reality
i can explain every point in detail, so feel free to ask anything
@RescueRanger @Abingdonboy @Donatello @jaibi @Slav Defence 
